INSULATION | AIRTIGHTNESS | BUILDING SCIENCE | VENTILATION | GREEN MATERIALS
S U S TA I N A B L E B U I L D I N G
DONEGAL DEEP RETROFIT
Pioneering sheltered housing scheme a roaring success
AIRBORNE COVID THREAT Rock of ages Deep retrofit transforms north-facing Blackrock seaside semi
‘ We can launch a new eco Renaissance’
UN director sets out low energy case
2009526010-08.eps NBW=80 B=20
second wave?
Issue 34 €6.95 IRISH EDITION
Will poor ventilation risk a
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PA S S I V E H O U S E +
Publishers
Temple Media Ltd PO Box 9688, Blackrock, Co. Dublin, Ireland t +353 (0)1 210 7513 | t +353 (0)1 210 7512 e info@passivehouseplus.ie www.passivehouseplus.ie
Editor
Jeff Colley jeff@passivehouseplus.ie
Deputy Editor
Lenny Antonelli lenny@passivehouseplus.ie
Reporter
John Hearne john@passivehouseplus.ie
Reporter
Kate de Selincourt kate@passivehouseplus.ie
Reporter
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Reader Reponse / IT
Dudley Colley dudley@passivehouseplus.ie
Accounts
Oisin Hart oisin@passivehouseplus.ie
Art Director
Lauren Colley lauren@passivehouseplus.ie
Design
Aoife O’Hara aoife@evekudesign.com | evekudesign.com
Contributors
Toby Cambray Greengauge Building Energy Consultants Marc Ó Riain doctor of architecture Mel Reynolds architect Peter Rickaby energy & sustainability consultant Fionn Stevenson professor of sustainable design David W Smith journalist
EDITOR’S LETTER
editor’s letter T
he past few months have been an extraordinarily trying time. Still, I have to remember to check my privileges, put my exceptionalism in my pocket and remember that many people have had it far worse than the team at Passive House Plus. With that perspective in mind, our struggles at this magazine, as they are, aren’t worth divulging. But some readers may have noticed a delay in this magazine arriving, so I feel duty bound. When the lockdown began in March, just after our last issue was finished, it posed immediate problems for our business, as it did for countless others around the world. At first advertising, which provides the overwhelming majority of funding for a magazine such as this, fell off a cliff. This was not something we could afford to happen – we’ve never been a profit-oriented company, and when we’ve turned a profit we’ve always invested it into the magazine, to reach as many readers as possible, and to provide the best service we can. So we have focused our efforts on finding new ways to help our clients, including hastily arranging to post magazines to readers at home to help see them through the lockdown, and dropping the paywall on the digital edition in an effort to substantially increase our readership. Thankfully, our readers have responded in droves. If you value this magazine, and the work we do to inform and educate on the detail of how to build and retrofit to high standards of sustainability, I’d strongly urge you to show your appreciation to the advertisers
ISSUE 34 in this issue, and to the companies who have backed us on our online Marketplace+ portal recently. While we would never begrudge the companies who couldn’t justify advertising since Covid-19 struck — we understand the hard decisions that many companies have had to take — we have been humbled by the loyalty so many organisations have shown us. Many of these companies made a point of backing us because they see that Passive House Plus has a role to play to help show the industry how to build and retrofit better. The feeling is mutual: we try to be as picky as possible about the kinds of advertisers we promote. If we are to have any chance of delivering the low energy, healthy, low environmental impact buildings the world so badly needs, we cannot afford to lose the hard-won expertise and capacity that has developed in this sustainable corner of the industry. The accumulated knowledge and skills will not be easily replaced. Rather we need these kinds of companies to grow, so that proven sustainable solutions are applied on all new build and retrofit projects. So, I implore you: while I hope you find inspiration and detailed learning in the articles published in this issue, please also reach out to the advertisers in these pages and the Marketplace+ portal on our website — either directly or collectively via our online enquiry form at www.passivehouseplus.ie/enquiries — and see what role they can play to help you build better. Regards, The editor
GPS Colour Graphics www.gpscolour.co.uk | +44 (0) 28 9070 2020
Cover
Ballyshannon deep retrofit scheme Photo by Kelvin Gilmor
Publisher’s circulation statement: 9,000 copies of Passive House Plus (Irish edition) are printed and distributed to the leading figures involved in sustainable building in Ireland including architects; consulting; m&e and building services engineers; developers; builders; energy auditors; renewable energy companies; environmental consultants; county, city and town councillors; key local authority personnel; and to newsagents nationwide via Easons. Disclaimer: The opinions expressed in Passive House Plus are those of the authors and do not necessarily reflect the views of the publishers.
ABC Certified Average Net Circulation of 6,417 for the period 01/07/18 to 30/06/19
About
Passive House Plus is an official partner magazine of the International Passive House Association. Passive House Plus (Irish edition) is an official magazine of the Passive House Association of Ireland.
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CONTENTS
PA S S I V E H O U S E +
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COLUMN Architect Mel Reynolds speculates on how much land prices may fall because of the Covid-19 crisis, and what the positive and negative impacts may be.
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COMMENT
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Pilot light Pioneering Donegal deep retrofit a roaring success
A rundown 1970s scheme of one-bedroom, singlestorey social housing units in Ballyshannon, Co Donegal, has been transformed into a pioneering development of cosy, A-rated, NZEB-busting homes. The pioneering project – the first completed under Ireland’s deep retrofit pilot scheme – also breathed new life into an unloved green area and is expected to help fuel a regeneration project in the town.
Superhomes scheme gets major boost with new EU funding, An Post announces plans to enter the retrofit market, plus an interview with new Passive House Association of Ireland chairperson Barry McCarron.
Dr Marc Ó Riain takes a look at the relationship between collapsing ecosystems and the emergence of new infectious diseases; Professor Fionn Stevenson calls for better ways to measure the environmental impact of buildings; and Dr Peter Rickaby says that Covid-19 has inadvertently given us a glimpse of what sustainable living patterns might look like.
Northern exposure Deep energy retrofit transforms north-facing Dublin seaside semi
Even though its stunning views lay directly northward, simple design, good detailing and lots of insulation have turned this 1960s semi on the edge of Dublin Bay into a warm and light-filled low energy home.
INTERNATIONAL This issue features the passive house ‘plus’ certified headquarters of Métropole Rouen Normandie, located on the banks of the Seine in Rouen, France, and designed by Jacques Ferrier Architecture.
CASE STUDIES
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Good stock Stylish Stockport retrofit achieves radical energy savings
This inspiring project may be exactly what the deep retrofit sector needs: an example of how to turn a bog standard, cold suburban home of little architectural merit into a climate champion delivering outstanding levels of energy performance, comfort and health, all while transforming the building architecturally.
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Sea change Luxury zero-energy passive apartments rise on the Devon coast
Built mostly with clay blocks and sited above the sandy shores of Seaton, on the Devon coast, this new development of eight high-end apartments not only meets the passive house ‘plus’ standard — meaning it pairs the requisite ultra-low energy fabric with a substantial amount of renewable energy generation — but it also boasts serious attention to the use of ecological and healthy material.
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In the early stages of the Covid-19 crisis, there was little official recognition that airborne transmission was a risk. Has that view changed, and what role will building ventilation play when winter approaches?
INSIGHT Deep retrofit & stimulus Is an upgrade revolution the economic tonic to tackle Covid?
With governments across Europe looking for ways to jump start their economies following the early impact of Covid-19, attention is increasingly turning to deep retrofit. But while there is strong evidence that deep retrofit could play a major role, the devil will be in the detail – and the challenge of dramatically upscaling a nascent industry shouldn’t be underestimated.
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We can launch a new eco Renaissance
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The UN’s Scott Foster says deep retrofit of our building stock, and a sustainable built environment, should be at the heart of our recovery from the Covid-19 pandemic.
Dead air Airborne Covid-19 and poorly ventilated buildings
MARKETPLACE Keep up with the latest developments from some of the leading companies in sustainable building, including new product innovations, project updates and more.
The science of filters
How do ventilation filters work, and can they help to protect us against Covid-19? Toby Cambray, cofounder of Greengauge Building Energy Consultants, weighs in on the physics of a subject that is more complex and interesting than you might expect.
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MEL REYNOLDS
COLUMN
Are lower land values the silver lining of the crisis? While the Covid-19 crisis has undoubtedly caused a huge amount of human suffering and economic damage, it has brought some upsides too. Mel Reynolds speculates on how much land prices may fall, and what the positive and negative impacts may be.
W
here to for the construction sector now in 2020? Given the changes to the world landscape this year, the housing sector outlook is very different. Construction sector overheating, skills shortages and increasing prices are looking like yesterday’s problems. There have been a plethora of uncertain industry predictions for the year ahead. Uncertainty rules the day and it is widely accepted that prices and activity will be affected. A report by Davy Stockbrokers suggested that new house prices in Ireland could fall by as much as 20% and land values by up to 50% if the economic upheaval caused by the virus continued. A Knight Frank report suggested that new homes output may fall by as much as 40% this year. In 2009, the worst year of the previous crash, prices dropped by almost 20% so some predictions may be overly pessimistic. What remains unknown is the extent of the fall and how long this upcoming recession will last. Pre-crisis, industry consensus was that one of the biggest impediments to affordable housing was the cost of land. Other than a relatively small drop in sales prices, are there any positives in the current crisis? Residual site values The common way of valuing development land is the ‘residual’ appraisal approach. This starts with anticipated sales prices and then subtracts all costs (development, financial, construction cost), and an allowance for profit of between 10 and 20%. The remaining figure is the ‘residual’ value, the price that developers will pay for development land. Increases in sales price or cost savings add to the bottomline site value. In a rising market developers may pay more than this figure, booking anticipated price rises. In a falling market a more conservative view may be taken. Table 1, above, is a hypothetical example to show how sensitive land values are to sales prices. In 2019, a typical new home in Dublin’s outer commuter belt priced at €337,000 had a site value of €37,000. This allowed for VAT on sales at 12.5%, total costs of €213,000 and a profit margin of 16% on net sales price. The second column on the right shows what happens if new home sales prices fall by 10%. A 10% drop in sales price in the above
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Sales Price Per Unit Q4 2019
-10% Decrease in Sales Price Per Unit
Gross sales price (incl. VAT) 2019*
€337,000
€303,000
Less VAT (12.5%)
€40,000
€36,000
Total Sales (ex VAT)
€297,000
€267,000
Construction Cost (all-in) Including finance, utilities & fees
€213,000
€213,000
Profit Margin (16% on Net VAT Sales)
€47,000
€43,000
Site Value*
€37,000
€11,000
3 Bedroom Semi-D
Table 1. Average sales price of typical house (*Source: Listed house-builder prelim. results 2019)
example leads to a 70% drop in site value. Given that construction and development costs are almost static, a sales price drop is almost directly reflected in the ‘bottom line’ land value and the loss of value is amplified. If the sales price in this case drops by more than 15%, then a negative land ‘residual’ value remains and this means that the project is no longer viable. Implications For developers who purchased sites recently, lower selling prices translate to lower margins and some projects may no longer be viable. Landowners selling sites may need to apply steep discounts depending on location etc. In a market where sales prices are falling, those intending to purchase development land may expect to get good value as corrections are factored into the market. For landowners and listed housebuilders sitting on land banks with thousands of sites, small drops in sales prices may have a more significant effect on underlying land values than recent commentary would suggest. No one will build at a loss (or get funding) and historically when markets fall, builders finish out current phases on-site and mothball developments until prices rise again. A silver lining... Most purchasers, provided they are still employed and can get a mortgage, will view a fall in house prices as a positive development – housing may become more affordable.
The industry has been complaining of elevated land values impacting on affordability for some time, so lower land values should be welcomed. Not good news for speculators, but for builders intending to purchase land to build, lower site prices may create the climate for more affordable prices. Short term pain for long term gain. Yesterday’s problems of land speculation, high site values and severely unaffordable housing were a result of poor government policy and crude market dynamics. A key question had been how to reduce land values. Falling prices today may give rise to tomorrow’s opportunity, a more affordable housing sector. n
A fully referenced version of this article is online at www.passivehouseplus.ie Mel Reynolds is a registered architect with more than 25 years of experience in project management, conservation, urban design and developer-led housing. He is also a certified passive house designer.
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INTERNATIONAL PASS I V E & EC O B UIL D S F R O M A R O UND THE WO RL D
IN BRIEF Building: 8,300 m2 public building Architect: Jacques Ferrier Architecture Method: Double-skin glazed façade with concrete elements Standard: Passive house ‘plus’ certified
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FRANCE
Photos: Luc Boegly / Myr Muratet / Ferrier Marchetti Studio
I N T E R N AT I O N A L
MÉTROPOLE ROUEN NORMANDIE HEADQUARTERS, FRANCE
B
etween 1892 and 1894, Claude Monet obsessively painted the façade of Rouen Cathedral, capturing how the ever-changing light and weather altered the mood, colour and texture of the cathedral’s gothic façade in a series of more than 30 paintings. These artworks inspired architect Jacques Ferrier in his design of a new metropolitan headquarters for the town, situated on the banks of the river Seine, which he clad in colour-shifting glass ‘scales’ to create an iridescent façade that reflects the ever-changing light and weather. Even more remarkable than the chromatic façade is that the building is certified to the passive house standard. Indeed, experienced passive house designers might baulk at the extent of glazing here — glass covers more than 60% of the building’s façades. So-called ‘sensible glazing ratios’ are typically at the heart of good passive house design — the idea being that you put the right amount of glass, in the right places, to capture heat and natural light from the sun, but avoid the summer overheating and winter heat loss that is often associated with excessive glazing. Ferrier may have shunned these norms but has also created a rather remarkable building. Rouen’s new town headquarters not only meets the passive house standard but the passive house ‘plus’ benchmark, which means it must generate about as much energy on site (from renewables) as the building consumes. Because covering the roof in solar PV panels would not have been enough to achieve this on its own, the project
decided to create a double-skin façade, with solar photovoltaic panels — coated with dichroic films that reflect different colours — forming the outer skin on much of the south face. On the north façade, which overlooks the river, the outer skin is comprised of glass scales coated with metal oxides, again to reflect different colours. This double-skin is also designed to provide insulation and prevent overheating in summer but allow more sunlight in during winter (the panels are angled to limit high-angle summer sun, but to receive more low-angle winter light). The building also has 35 geothermal probes connected to two heat pumps that provide heating and cooling, but demand is minimal, and within the passive house standard of 15 kWh/m2/yr for each. Meanwhile an atrium slices the building in half, bringing daylight deep into the heart of the plan, and also creating a series of internal terraces for staff and members of the public. The roof also boasts a large terrace with views over the city and River Seine. The building’s oblique shape is designed to mimic the silhouettes of cranes on the dockside, and the bows of passing ships. It may not be a traditional interpretation of passive design — and we will be curious to see how comfortable indoor temperatures remain as the climate warms — but it is nonetheless a spectacular piece of architecture. “The building’s appearance transforms throughout the day,” say the architects. “With the light shining through, it appears to float on the quay.”
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WANT TO KNOW MORE? The digital version of this magazine includes access to exclusive galleries of architectural drawings. The digital magazine is available to subscribers on www.passive.ie
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NEWS
PA S S I V E H O U S E +
NEWS
T
he European Commission has adopted the EU’s new circular economy action plan, a major part of the European Green deal. The action plan aims to make the EU economy produce more durable, longerlasting, repairable consumer products, and maximise the use of recycled material. As part of the plan, the commission will propose legislation to ensure that products placed on the EU market are designed to last longer, are easier to reuse, repair and recycle, and incorporate as much as recycled material as possible. Single-use materials will be restricted, premature obsolescence targeted, and the destruction of unsold durable goods banned. There will be a new focus on minimising waste and turning it into secondary resources. Under the plan, consumers will have access to reliable information on issues such as the reparability and durability of products. There will also be a ‘right to repair'. The plan will also include a strategy for promoting circular principles in the building materials sector. A circular electronics initiative will aim to increase product lifespans and improve the collection and treatment of waste. There will also be an emphasis on reducing overpackaging of projects, plus new mandatory requirements for recycled content in plastics, and special attention on microplastics as well as bio-based and biodegradable plastics. Frans Timmermans, executive vice-president for the European Green Deal, said: “Today, our economy is still mostly linear, with only 12% of secondary materials and
resources being brought back into the economy. Many products break down too easily, cannot be reused, repaired or recycled, or are made for single use only. With today's plan we launch action to transform the way products are made and empower consumers to make sustainable choices for their own benefit and that of the environment.” Grants for circular economy launched Meanwhile in Ireland, the Environmental Protection Agency has launched a €600,000 fund for innovation in the circular economy. Applications are invited from businesses and other organisations within the food, construction and demolition, plastics, and resources and raw materials sectors. For more see www.epa.ie. Circular economy built-environment diploma at GMIT The Department of Building and Civil Engineering at the Galway-Mayo Institute of Technology has received funding under pillar one of the Human Capital Initiative to develop a year-long Level 9 Postgraduate Diploma entitled Circular Economy for a Sustainable Built Environment which will commence in September 2021. The programme will build on over 20 years’ experience in GMIT of applied research, funded by the Environmental Protection Agency, in the areas of construction and demolition waste management, resource efficient construction and the circular economy.
The Build 360 research group within the department is currently developing a resource efficiency and material circularity protocol for main contractors as part of an EPA Green Enterprise-funded project in collaboration with Carey Building Contractors. The postgraduate diploma will be developed in close collaboration with industry and the public sector over the next 12 months. It will be delivered in a blended format utilising online resources and workshop/residential days to provide a flexible learning environment for industry stakeholders. The programme is a direct response to the recent European Green Deal and Circular Economy Action Plan 2020 and aims to position Ireland as an international leader in circular construction, building on work already underway in both the public and private sector. For further information about the programme, please contact mark.kelly@gmit.ie. •
(above) Frans Timmermans, executive vicepresident for the European Green Deal.
Covid-19 safety guidelines published for retrofit
T
he National Insulation Association of Ireland (NIAI) has published guidelines on how home retrofits can safely re-start in the age of Covid-19. Construction activity recommenced in Ireland on 18 May. Home retrofits typically require at least some indoor work, and how to undertake such work safely is addressed by the new NIAI document, titled ‘Retrofit Industry Guidelines for Establishing Best Practice COVID-19 Health and Safety On-site Protocols’. The publication recommends an inverted pyramid of actions to minimise risk on site, with the most effective ‘risk eliminating’ actions — such as homeowners vacating
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the premises during works if possible, and contractors who are sick staying at home — at the top of the pyramid. Below this are the ‘risk reducing’ actions, such as physical distancing, and homeowners remaining in a separate room where no works are taking place while contractors are on site. Measures such as handwashing and surface cleaning, temperature checks, ventilation, and disinfection come next in order of effectiveness. Personal protective equipment, while important, should be seen as a last line of defence after risks have been minimised as much as possible. “This document gives very clear guidance to protect the health of both the
homeowner and employer, and should be followed rigorously,” said Henry Sheahan of the NIAI. “It is in the best interest of the contractor to ensure the health of their employees and homeowners is their top priority in this Covid-19 crisis.” He added: “After the past three very difficult months that were filled with sadness and uncertainty, it is really great to see the reopening of society and business. The construction industry returned on 18 May, now SEAI are engaging with the retrofit contractors around return to work protocols, which we very much welcome.” To download and read the full guidelines, go to www.niai.ie. •
Photo: CC-BY-4.0 © European Union 2019 – Source: EP
Circular economy plans come into focus
PA S S I V E H O U S E +
SuperHomes to ramp up retrofit with new EU funding
NEWS
Covid may delay Part F competency & validation rules
T
T
ipperary Energy Agency has secured significant new EU funding to further the development of its domestic retrofit programme, SuperHomes Ireland. The latest version of the scheme, dubbed ‘SuperHomes 2030’, is supported by the EU Horizon 2020 programme. The new programme will run for three years. The main aim of SuperHomes 2030 is to support the scaling up of deep renovation in Ireland. It will build on the experience and track record of the SuperHomes Ireland programme, which has retrofitted hundreds of Irish homes since 2015, and will aim to address the financial and information barriers of retrofit for homeowners. “The new programme for government will undoubtedly be focussing on how the carbon emissions from our homes can be substantially decreased,” said Tipperary Energy Agency CEO Paul Kenny. “The Government’s 2019 climate action plan outlines their objective for retrofitting 500,000 homes by 2030. Climate ambitions are easily written on paper. Delivering ten times the current retrofit activity will be hugely challenging. For these targets to be realised a significant investment is needed in the supply chain. With the commencement of SuperHomes 2030, supported by the EU, some of these steps can be taken in advance of the announcement of the national retrofit programme.” The new SuperHomes 2030 scheme was also welcomed by programme partners ESB. “Over the next decade, we will continue to transform our generation portfolio, cutting the carbon intensity of our generation mix by over two thirds,” said ESB eHeat manager Brian Montayne. “This clean electricity, coupled with renewable technologies and energy efficiency measures, is the catalyst for deep decarbonisation of our built environment. Participation in the SuperHomes 2030 Project offers us a timely opportunity to help stimulate scaling-up of residential energy renovation to meet the ambitions of the Government’s climate action plan.” Lack of finance for homeowners is one of a wide spectrum of challenges to be addressed, and unlocking the finance barrier is a key objective of SuperHomes 2030. One of the project partners, the consultancy SustainabilityWorks, will focus exclusively on developing strategies to overcome the finance barrier for homeowners. The other partners in the project are the European Heat Pump Association (EHPA) and Limerick Institute of Technology. For more information www. superhomes.ie. •
he Department of Housing is considering short-term changes to ventilation requirements under building regulations due to the impact of the Covid-19 crisis on the construction sector, Passive House Plus has learned. The department introduced changes to Part F of the building regulations and the associated technical guidance document (TGD) F last year, in an effort to ensure that indoor air quality would not be compromised by the introduction of the nearly zero energy building (NZEB) standard. The ventilation changes included a requirement for competent persons to work on the design, installation, and commissioning of ventilation systems – including both mechanical and natural ventilation – with an additional requirement for independent validation of the ventilation system upon completion. There is an exemption from this for buildings where the planning application was lodged by 31 October last year, provided the building is substantially complete by 31 October this year, meaning the requirement will only come fully into force from 1 November. The National Standards Authority of Ireland (NSAI) maintains a list of registered ventilation validators, which includes six registered validators to date – including one individual who doesn’t intend to do validation work. Separately, there is one company approved by the Irish National Accreditation Board (INAB) to act as validators. Meanwhile there is one training course in place, run by the Waterford and Wexford Training and Education Board (WWTEB), for persons seeking to become certified as competent persons to design, install, or commission ventilation systems. To date 60 people have completed the course, 55 of whom passed the assessment. But there is concern that the Covid-19 pandemic has substantially delayed the process of training and auditing for persons and companies interested in becoming competent persons or validators, making it now unlikely a sufficient number will be registered by the end of October. It is also unclear what Covid-related restrictions may exist on building sites come November. In a response to a query about this from Passive House Plus, the Department of Housing said that it would keep the 31 October date under review “in light of the current situation regarding the Covid-19 pandemic and the restrictions imposed on construction works”. It added: “We do acknowledge that productivity may be affected by public health/safety measures implemented on site and that there is uncertainty around further closures.” The department acknowledged that Covid-19 had put a pause on the auditing and registration of validators, stating: “While registrations had taken place prior to the Covid restrictions, NSAI have informed us that further work on initial proficiency testing will resume in accordance with the Government roadmap for reopening and public health guidelines.” •
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NEWS
Passive House Plus sees digital spike during Covid
An Post to enter retrofit market
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he digital edition of Passive House Plus has seen a significant increase in readership during the Covid-19 crisis, in addition to the magazine’s marketleading print circulation. The standing total for digital reads of the Spring 2020 Irish edition of Passive House Plus is 5,847 reads, compared to a standing total of 819 reads for the previous issue. Back issues of Passive House Plus tend to accumulate digital reads slowly over time, typically averaging circa 2,000 reads after a year or two. The magazine’s ABC audited average circulation for the print version of the Irish edition averages 6,424 copies, with an average of 2.08 readers per copy (based on the 2019 Passive House Plus reader survey) indicating a print readership in excess of 13,000 people. The spike in digital readership resulted from a decision to drop the paywall on the digital edition, as part of a strategy to increase readership and boost exposure for advertisers feeling the effect of the Covid-19 lockdown, while providing readers with access to the magazine at a time when they may have scope to catch up on reading. In order to enable readers to receive the magazine at home during the lockdown, a form was setup on the Passive House Plus website for readers to request a free copy to be sent to their home address. “We’ve elected to keep the paywall down for this issue too,” said editor Jeff Colley. “If our print and digital edition readership is combined, the total would be approaching 20,000 readers (assuming no duplication between print and digital reads). We’re delighted to be able to reach such a large and loyal readership, and to inform as many people as possible about the detail on how to build or retrofit to the highest standards of comfort, energy efficiency and indoor air quality.” •
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n Post has announced the launch of a new "green hub" providing end-to-end project management and money-saving advice for all levels of home retrofitting, along with a low-cost loan rate. The state-owned company said that this one-stop-shop approach will cover loan-only or full retrofit services, from initial home assessments to completed works, along with SEAI grant application and payment process. An Post added that it is at an advanced stage of discussions with SEAI and a leading Irish energy company to support the fulfilment of works and the government grant process. It is also joining forces with Avantcard, its existing lending partner on its An Post Money Loans and credit card products. Debbie Byrne, managing director of An Post Retail, said: “An element of An Post’s long-term financial services strategy is to play a leading role in supporting the government’s climate action plan to retrofit up to 500,000 houses, and Irish householders’ desire to make environmentally responsible decisions when investing in their homes or replacing fossilfuelled vehicles. A customer-friendly ‘green hub’ is our way of supporting this essential plan for Ireland. “An Post has a proven commitment to sustainability with Ireland’s largest e-vehicle fleet and a wide-ranging Eco-Plan, and to acting for the common good across its business. We also have unrivalled expertise in providing customers with trusted, value-for-money products. As other financial networks retreat, we’ve invested in improving and expanding our retail and financial services for individuals and communities. She continued: “We know that customers want to make the right decisions about home improvement and it can be a daunting proposition, and long-term value for money is key. By joining with experts to provide customised assessments for individual householders, we will ensure best-value and peace of mind for customers, to suit their personal budget. Our rates will remain strong for this market. “As we come out of the Covid-19 crisis, there will be even more emphasis on sensible spending, value-for-money and doing business with brands that can be trusted and relied upon in good times and bad." An Post is expected to launch its new retrofit service and finance package to the market later this year. • (above) Debbie Byrne, managing director of An Post Retail.
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PA S S I V E H O U S E +
NEWS
This year feels pivotal for passive house Passive house veteran Barry McCarron has just taken over as chairperson of the Passive House Association of Ireland for a three-year term. But he believes the unique convergence of national and international events makes 2020 particularly critical for delivering a sustainable built environment. Words by Lenny Antonelli
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arry McCarron takes charge of the Passive House Association of Ireland (PHAI) at a crucial time, with the all-Ireland group celebrating its 10th anniversary this year. “My own term of chair is for three years, but this year feels pivotal given the wider context — the climate change imperative, the recent introduction of NZEB [nearly zero energy building standards] in the Republic of Ireland, the European green deal, the potential for a new Irish government, and of course the Covid-19 pandemic.” His immediate goal for the year is to deliver new educational material on the passive house standard. First up will be a definitive, easy-to-read guide to passive house and NZEB. Beyond that, he also hopes to roll out bespoke training in passive house design and construction, and to develop passive house education activities for primary, secondary and third level students. “The original mission of the PHAI is to promote, educate and facilitate, to develop a strong identity, understanding and demand for the passive house concept. I see this still being as relevant today. I also see big opportunities for collaboration with others such as the Irish Green Building Council. We are both advocating for healthy, high performance, low environmental impact buildings.” McCarron sees the passive house standard as more relevant than ever despite the recent introduction of NZEB standards into the building regulations in the Republic of Ireland. “Now that NZEB is here the passive house standard just makes complete sense. In my opinion it is the best quality assured route to NZEB.” He says this is because some of the key principles of passive house design — insulation to low U-values, thermal bridge free design, triple glazing, airtightness, and mechanical ventilation with heat recovery — are critical to eliminating the ‘performance
gap’ between designed and as-built energy performance. “Much of Part L is welcome however it doesn’t lock you into these five principles and this is exactly why there is potential for a performance gap to remain, or for more high-profile mistakes to occur.” McCarron’s main concern with Part L is that it still allows natural ventilation in reasonably airtight buildings (between 3 and 5 m3/hr/m2). “Many studies have already demonstrated how poor natural ventilation is at delivering air exchange,” he says. “The passive house methodology provides a framework for quality assurance. In the Republic of Ireland, we have made some improvements with respect to building control with the introduction of BCAR [Building Control Amendment Regulations], however it is still not ideal. Self-certification by default is a conflict, and then there is the option to opt out, which many do because of the cost. “There is huge potential opportunity to advocate the passive house standard as an alternative means of quality assurance for one-off domestic housing. The certification route provides robustness and quality assurance from design stage to completion.” McCarron is also keen to promote the Passive House Institute’s lesser known, and less onerous, low energy building standard. “I often have people say to me ‘I want to do the concept, but I don’t want to go all the way to passive’. That’s what the low energy building standard is available for.” But regardless of how good new build is, deep retrofit of our building stock remains the biggest challenge for reducing carbon emissions from buildings (as well as making them healthier and more comfortable). There is growing hope, however, that deep energy retrofit may become a focal point of economic stimulus plans in the era of Covid-19.
(above) Barry McCarron, new chairperson of the PHAI. McCarron paid tribute to his three predecessors as PHAI chair — Paul McAllister, Shane Colclough and Martin Murray — and the work they had done to promote the passive house standard in Ireland.
“This is the real pertinent issue and the real low hanging fruit opportunity for any new government in Ireland with respect to meeting our carbon emission targets by 2030. In order to stimulate this market, it will require several financial instruments but the one I hope to see evolve soon is the growth in commercial green loans from providers here in Ireland. Passive house offers an excellent vehicle here, it has a framework and methodology with is measurable through to certification, which should dovetail with the requirements of financial providers.” McCarron was just about to hand in his doctoral thesis at Queens University Belfast as Passive House Plus was going to print. His research has found that passive houses have, on average, 45% lower radon measurements (35 Bq/m3) than the national reference level of 77 Bq/m3 — showing the importance of well-designed, balanced mechanical ventilation systems in removing indoor air pollutants. “Typically, the ground floor in a dwelling will exhibit a higher level of radon to the first floor, however my findings displayed a much more even distribution in passive houses, which would indicate how effective the cross flow principle and a properly commissioned, balanced mechanical heat recovery ventilation unit is,” he says. McCarron’s day job is as senior business development manager at the South West College’s InnoTech Centre, in Fermanagh. The college’s Centre for Renewable Energy and Sustainable Technologies (CREST) was built to the passive house standard, and its new Erne Campus building is aiming for passive house ‘premium’, meaning it will generate more energy from on-site renewables than the building uses. McCarron has played a key role in developing the college into a passive house hub and will now bring that experience forward to his new role with the PHAI. •
ph+ | news | 17
N PA S OSUI SVEE+ H O U S E + I GEBWCS U P D TS E I V EP H AS
Photo: Stevesphotography / CC-BY-SA 4.0
Supporting green building’s upskilling
(above) The IGBC’s online ‘Regeneration’ conference heard that Limerick city is planning to make its Georgian quarter carbon positive.
O
ver the past couple of months, the Irish Green Building Council (IGBC) has been focusing on helping those in the industry to upskill during the lockdown. The IGBC first launched a learning hub on its website. This includes learning materials and webinars on NZEB, zero carbon, resource efficiency and circularity, health and wellbeing, green building certification, finance, and sustainable communities. All webinars are publicly available and free of charge for IGBC members. In addition, the certification training for both HPI and LEED has been redeveloped as online courses. Among the resources available is the recently completed ‘Green Home Solutions’ webinar series. The series was very popular with over 600 building professionals registered. A new ‘Renovation Solutions’ webinar series started at the end of June. Topics to be covered include moisture management in solid walls, external wall insulation, ventilation and air quality, as well as designing heat pumps for existing homes. Those interested in upskilling in energy renovation may also want to check out the new BUILD UP Skills Advisor app. The app has been developed by the IGBC, in conjunction with Limerick Institute of Technology. It allows building professionals and construction workers to identify energy renovation training courses that suit their needs in one click. Finally, the IGBC has developed two mail courses in association with the UK Green Building Council: ‘Sustainability Principles in the Built Environment’ and ‘Achieving Net Zero Carbon Buildings’. Each mail series course is delivered in four easy-to-read emails over four weeks. Towards zero carbon cities On 15 May, the IGBC held its first online
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conference, titled ‘Regeneration’. The conference focused on zero carbon cities in the post Covid-19 era. A representative of the City of Helsinki explained how the city is planning for carbon neutrality by 2035, including carbon neutral buildings. The Finnish capital is one of the latest cities to join the World Green Building Council’s net zero carbon buildings commitment. The commitment challenges cities and businesses to reach net zero operating emissions in their portfolios by 2030, and to advocate for all buildings to be net zero carbon in operation by 2050. The conference attendees also learnt more about how Limerick City Council are planning a carbon positive Georgian quarter. The keynote speaker was the well know urban planning guru, Brent Toderian. Toderian is a former director of planning for Vancouver city. He has subsequently advised cities as diverse as Medellin, Sydney, and Helsinki on how to design great places for people. In particular, he spoke about how “If you design a city for cars it fails for everyone including drivers.” Toderian also commented on Ireland’s climate action plan goal to have at least 500,000 electric cars on the road by 2030: “Your goal shouldn’t be to replace half a million fossil fuel vehicles with half a million electric vehicles. It should be to replace them with 250,000 electric vehicles. The answer has to be fewer cars.” To support Irish local authorities in decarbonising their existing building stock, the IGBC is developing a multi-level energy renovation framework . The objective of the framework is to better align local and national government retrofit initiatives, and to enable the capturing of sound data on energy renovation programmes, including co-benefits. This in turn will allow local authorities to
better evaluate which energy renovation initiatives are successful and why, and to make a valuable contribution for the design of national policies. To make it as easy as possible for local authorities to use the framework, it will be designed to be integrated into the Covenant of Mayors' reporting tool. A draft version of this framework will be piloted by Dublin City Council between July and December 2020. The IGBC is now inviting other local authorities that are interested in learning more and/or testing the framework in spring 2021 to contact them. Bringing embodied carbon upfront Most of the industry and policy focus to date has been on tackling operational carbon — 29% of global emissions. But the construction of new buildings and infrastructure accounts for 11% of global carbon emissions, before they are even used or operated. These ‘embodied carbon’ emissions result from the extraction of materials, their transport to the manufacturer, the manufacture of the products and their transport to site, maintenance during the lifetime of the building, and finally removal, transport and end-of-life processing. In order to meet the imperative to maintain the global temperature rise below 1.5C, upfront embodied carbon must be addressed in addition to operational carbon. To support this transition, One Click LCA with the support of the IGBC has launched One Click Planetary. This free tool allows building professionals to measure embodied carbon in Ireland. One Click Planetary includes all the data from the IGBC’s EPD Ireland Environmental Product Declaration Programme. EPD Ireland allows manufacturers to publish independently verified information about the environmental impact of their products. Further information at www.igbc.ie. •
AS P A S S I V EP H OSUI SVEE+ H O IUGSBEC+ U PNDEAW TS E
‘Time to move to life cycle assessment of our buildings’ New regulations over the last decade have substantially cut operational energy use in buildings, and with more building product manufacturers now publishing environmental data on their products, now is the time to move towards in-depth life cycle assessment to reveal the full environmental footprint of our buildings, Pat Barry of the Irish Green Building Council tells Passive House Plus.
I
f you work in the Irish building industry, you’ve probably seen the growing procession of building material manufacturers publishing environmental product declarations (EPDs) over the last couple of years. EPDs are a standardised way for manufacturers to display information on the environmental impact of building products. They present data across seven different parameters, including global warming potential (GWP), eutrophication (over-enrichment of aquatic ecosystems), ozone depletion, acidification and natural resource depletion. EPDs allow architects and other building product specifiers to make more informed choices about the materials they use. In Ireland, the uptake of EPDs has largely been driven by the EPD Ireland programme, which was established two years by the Irish Green Building Council (IGBC). But speaking to Passive House Plus, IGBC chief executive Pat Barry says the group’s ultimate goal is not just for more manufacturers to have EPDs, but ultimately, for designers and procurers to use EPDs as the basis of doing whole life cycle assessments (LCAs) of their buildings. “Whole life cycle assessments allow you to see where the ‘hotspots’ in a building are in terms of the carbon footprint of materials, and can help you to design them out,” he said. “And those doing LCAs can also use them to compare one building design proposal against another in terms of carbon footprint.” Earlier this month, leading Irish contractor John Sisk & Sons became the latest company to sign the IGBC’s environmental product
said. “If you only look at the carbon footprint of the product, you miss the opportunity to optimise and rationalise your building design in order to reduce its carbon impact.” Passive house designers will be familiar with this principle: you look at the whole building and, ideally, make its form as simple and efficient as possible in order to reduce heat loss and avoid complex junctions, which are more difficult to detail. And there’s a similar principle at play here — simple, efficiently designed buildings require less materials and thus have less environmental impact and a smaller carbon footprint. “I’ve seen analyses that underground car parks can add something like 7% to the whole life cycle carbon footprint of a building,” Pat Barry said. “Doing an LCA of a whole-building design would flag this at design stage and perhaps give you the opportunity to work with planners to reduce the need for underground car parking.” “Equally we see a lot of detached housing schemes now with only one metre or so of space between units — so it’s detached in name only really, because that fetches a higher price. But this doubles the number of party walls you need to build and increases the amount of foundations you need as well. That’s a big environmental impact.” One obstacle to producing accurate LCAs for Irish buildings at the moment is the lack of local environmental data for cement and concrete. “While some of the sectors like insulation have been very progressive in providing EPDs, we would really like to see some of the manu-
Simple, efficiently designed buildings require less materials and thus have less environmental impact. declarations commitment to ask for EPDs, and to prefer products with EPDs where possible (within procurement rules). Other companies and organisations to have signed the commitment to date include Dublin City Council, Coady Architects, Wain Morehead Architects, Transport Infrastructure Ireland and BDP. Ultimately the more procurers that look for EPDs, the more manufacturers are likely to develop them, and the more products that have them, the easier it then becomes to carry out LCAs. “We need to be measuring carbon footprint and environmental impact at the building level, as well as at the product level,” Pat Barry
facturers of the highest impact products like cement and readymix concrete also provide EPDs,” Pat Barry said. EPDs for specific products are the most reliable form of life cycle data, followed by verified data from trade organisations, and after that, generic data for broad product categories, from sources such as academic studies. “At the moment we don’t have any national data for cement, all that’s being used is more generic European-wide data, which is of lesser quality. Having national data for cement would allow us to more accurately quantify the carbon footprint of our buildings.” For more information see www.igbc.ie/ epd-home. •
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ph+ | igbc ph+ update | news | 19
FIONN STEVENSON
COLUMN
We need better building
performance metrics The way we currently do post-occupancy evaluation of buildings is inadequate, says Professor Fionn Stevenson — we need new ways to measure the environmental impact of buildings, and how resilient they are to climate change.
T
here is an increasing expectation that a robust performance evaluation is carried out on the buildings we design, once they are completed and again after they have been occupied for some time. These results are regularly reported in this magazine. Post-occupancy evaluation (POE) methods are well known, and in the European Union there is a requirement to publicly display energy use and carbon emissions for public buildings under the Energy Performance of Buildings Directive. However, there is a serious concern about whether the right metrics are being used to make this evaluation. Is kWh/m2/yr really good enough? What about total energy
floor area. When you multiply the energy demand per m2 by the floor area, you get the total energy in use demand, which is the more useful figure for understanding the overall impact of the building. The floor area significantly influences embodied energy and carbon emissions too. Looking at total demand forces us to answer difficult questions such as: do I really need all this space? Am I occupying this home efficiently? These questions matter, because it is the overall impact of our buildings that ultimately affects climate change, not the rate of energy use on its own. A new mandatory metric in performance evaluation that
Four-and-a-half million homes are already overheating in the UK each summer. use? What about adaptive comfort considerations? Is climate change future-proofing even considered in POE? In my recent book on housing performance, I address the issue of ‘sufficiency’ – the need to take account not of just how well our homes perform, but what their overall impact is in terms of resource use. In Passive House Plus issue 33, we had a couple of new homes illustrated at around 150 m2 floor area, with primary energy demands predicted to be 44 and 96 kWh/ m2/yr, and another home at around 276 m2 with a demand of 39 kWh/m2/yr. The interesting thing here is not just the difference in energy demand – it is the huge difference in
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addresses total energy and carbon emissions in use is needed to address this gap. Another major issue remains unaddressed in current POE metrics: how many people actually live in the home. Why does this matter? If a home designed for a family of five with three bedrooms only has two people living in it, then it is underutilised and causing profligate resource use. While passive house and other useful environmental performance standards address the performance of a home, they do not address how people use it. Another new POE metric is needed, to compare the number of people living in a home with the number it was originally
designed for. This can work both ways, of course, and reveal when a home is over-occupied too, with more people living in it than sensibly designed for. This can be particularly useful in rented housing, when rogue landlords are overfilling homes. It can also provide realistic figures of occupancy for understanding what is really going on in housing in terms of the amount of energy used to house people. Then there is the burning question of whether homes are resilient in relation to climate change. Four-and-a-half million homes are already overheating in the UK each summer. This is partly related to poor design which prevents natural cross ventilation at night or creates inadequate MVHR [mechanical ventilation with heat recovery] systems. While some building performance evaluation tools, such as the passive house software PHPP, factor in overheating for design purposes, there is currently no requirement to future-proof the performance of our homes in relation to global temperature increases, increased rainfall and other storm factors. An additional performance metric is needed at the design stage to ensure that all essential factors related to climate change have been taken into consideration. In summary, we need better metrics for housing performance evaluation, related to the reality of space use, occupancy and future-proofing. Fortunately, there is good work going on in the UK Building Performance Network to develop better performance evaluation methods, and there is also a chance to influence the forthcoming new British standard that is being developed for POE in relation to retrofit. n
A fully referenced version of this article is online at www.passivehouseplus.ie Fionn Stevenson holds a Chair in Sustainable Design at the University of Sheffield. She is a founder member of the Building Performance Network, and an advisor to the Royal Institute of British Architects on POE policy. She is author of ‘Housing Fit for Purpose: Performance, Feedback and Learning,’ published in 2019 by the RIBA. Twitter: @fionnstevenson
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MARC Ó RIAIN
COLUMN
Are we the virus? Taking a temporary detour from his series of columns on the history of sustainable building and renewable energy, Dr Marc Ó Riain takes a look at Covid-19 from the perspective of Gaia theory, and at the relationship between collapsing ecosystems and the emergence of new infectious diseases.
D
iverting from my usual column I have taken the opportunity of solitude to review some academic papers and books relating to the development of Covid-19 in an environmental context. James Lovelock’s Gaia theory (1972 & 2009) proposes that the planet is a complex interacting system much like a single organism. In this vision, humans are the virus making the organism unstable, and thus Gaia’s immune system will find ways of fighting the virus...in our case with a virus, and it is not the first example. The Spanish flu, Covid’s most appropriate antecedent, lasted three years, and was caused by the conflagration of war, mixing of French soil, multinational armies, poor quality living conditions, stress, fear and the use of chemical gases, with its virulence aggravated by the repatriation of soldiers, creating a true global pandemic . Although in a different context, our increas-ing travel, trade, industry, population, pollution and expansionist agriculture has placed an ever-increasing pressure on the fringes of regional biodiversity. This is scientifically linked to a “a rise in disease emergence and the potential for pandemics” according to researchers . The rate of detection of these novel and epidemic-prone diseases, like Covid-19, is
We disrupt ecosystems, and we shake viruses loose. increasing in frequency, and they are increasingly difficult to manage; H1N1, SARS, MERS, Ebola, Zika, Yellow Fever... Between 2011 and 2018, WHO tracked 1,483 epidemic events in 172 countries. The increase in novel diseases is emerging from the fringes of our societies along the edges of biodiversity “hotspots” such as tropical rainforests and bushmeat markets in Brazil, Africa and Asia, but driven by the northern hemisphere’s demand for meat, minerals and materials. According to the Centre for Disease Control in the US, approximately 75% of emerging infectious diseases and 60% of all pathogens that infect humans have originated in animals. David Quammen (2012) prophetically warned us: “we cut the trees; we kill the animals or 22 | passivehouseplus.ie | issue 34
Newly emerging and re-emerging infectious diseases (National Institute for Allergies & Infectious Diseases, USA)
cage them and send them to markets. We disrupt ecosystems, and we shake viruses loose. A parasitic microbe, thus jostled, evicted, deprived of its habitual host, has two options— to find a new host or a new kind of host... and often, we are it.” In 1997, epidemiologist Donald S Burke at the University of Pittsburgh identified that the coronavirus (CoV) has a proven ability to cause epidemics in animal populations and intrinsic evolvability to recombine to cause pandemics in the human populations. Burke argued that world governments and NGOs needed to be actively monitoring remote places to identify local spill-overs of CoV, with field capabilities to suppress the disease before it becomes a regional outbreak. An interesting example of such monitoring is the research carried out by the Global Viral Forecasting Initiative (GVFI), which blot tested bush meat in high risk areas for emerging viruses, in a systematic effort to stop the next pandemic before it begins to spread. This is exactly the type of research that needs to be funded and broadened to arrest pathogens in small clusters, thus eliminating the virus in human populations before they get a more widespread foothold. The development of these novel viruses is part of a larger pattern, one which we are responsible for, one where Gaia is defending herself against us. Perhaps we need to flatten the curve of population growth, sooner rather than later, as the force of population expansion is pressuring environments, creating the
opportunity for viruses to jump species. Although world population is projected to stop growing by the end of the century, per capita energy consumption and CO2 emissions have steadily increased over the past 50 years, thus the pressure on habitat may still exist. We need to start protecting our naturally biodiverse regions, retaining them as the lungs of the planet but also to contain the potential pathogens that may bring us to our knees again. The northern hemisphere also needs to take responsibility in returning biodiversity to parts of our farmlands, and by financially supporting the protection of tropical ecosystems. We reap what we sow, in terms of the terrible consequences of lives lost and economies shut down. We need to wake up and start to anticipate the next environmental shock, change our behaviours and our laws before the planet works out how to live without us. n A fully referenced version of this article is online at www.passivehouseplus.ie Dr Marc Ó Riain is a lecturer at the Department of Architecture at Cork Institute of Technology, one of the founding editors of Iterations design research journal and practice review, a former president of the Institute of Designers in Ireland, and has completed a PhD in low energy building retrofit, realising Ireland’s first commercial NZEB retrofit in 2013.
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DR PETER RICKABY
COLUMN
Will we ever return to normal? Covid-19 has inadvertently given us a glimpse of what sustainable living patterns might look like, and we must seize this opportunity for long-lasting positive change, says Dr Peter Rickaby.
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n one of my early columns here I recalled asking my students to imagine hovering above a city for a day, and to describe what they would see. They described tides of commuters on bicycles, in cars, on buses and metros, and on trains, flowing to work in the morning and flowing home again to suburbs, hinterland towns and beyond, in the evening. They remarked on the numbers of people and the distances involved – commutes of fifty miles each way being common. Some also described cross-commutes between sub-centres, and local commutes into sub-centres and hinterland towns, to work and school. Overlaid were inter-city journeys to attend meetings, conferences or exhibi-
strong, and even in London we have spent ten years building apartments and raising densities as fast as we can. Nevertheless, it is still the case almost everywhere that as households become more affluent they vote with their wheels to live at the edge of the city or beyond, where densities, air pollution and crime rates are lower, schools are often perceived to be better, and open space is more accessible. This was the settlement trend of the twentieth century, facilitated by cheap fuel, carelessness about emissions and complacent attitudes to the environment, and it has only recently begun to change. Now we suddenly find ourselves in different circumstances. A global pandemic
We have been given a glimpse of a sustainable future. tions, and journeys to deliver materials and distribute goods. My assignment question associated with this exercise was, “do you think what you have described is a sensible pattern of settlement?” Most students responded that it was not, some that it was clearly unsustainable, one (emphatically) that it was insane. Subsequently, we talked about the trade-off between energy use in buildings and in transport, the advantages of higher or lower densities (the jury is still out on that), the integration of agriculture with urban activities, and what a sustainable pattern of settlement might look like. In a recent column, I pointed out the nonsense of referring to the Bloomberg building in London as ‘sustainable’ when it has a huge carbon footprint associated with those who work there commuting to and from their distant homes. My point in both these examples is that the physical separation of our urban places of work from suburban and hinterland homes is at the heart of the problem of sustainability. This applies particularly to cities in the UK and USA, and perhaps elsewhere, but many cities in Europe and Asia have higher residential densities and smaller commuter catchments, so the tides there are smaller, although still significant. In European cities the tradition of urban apartment living is
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and public health emergency left many of us locked down at home. We are now working, meeting, teaching, learning and shopping online, and getting many of the things we need delivered. Commuter trains are much less crowded, bus services have been cut and roads are no longer congested. Almost nobody is flying anywhere. Energy use in transport and commercial buildings is down (though up slightly in domestic buildings), carbon dioxide emissions are down, urban air quality is much improved. It is not all great of course – we are not visiting family and friends, taking holidays or weekends away, watching or playing sport, drinking in pubs and bars, or eating out at restaurants. Notwithstanding these inconveniences, we have been given a glimpse of what a sustainable future could look like. We are learning which activities need to be centralised and which can be networked, that working or studying from home are good options for many, and that online media can provide social cohesion for everyone, not just for teenagers. When the emergency is over (if it ever is), conservative, populist politicians, bankers and big business will want to return everything to the way it was before – to restore their profits and our former ‘way of life’, even if it was wasteful and unsustainable. Even if healthcare was under-funded,
migrants were under-valued, homeless people slept on our streets and our environment was being destroyed. However, I predict that many will resist. Encouraged by David Attenborough, Greta Thunberg, and Extinction Rebellion, we will have the opportunity go further towards a sustainable way of living and working. Employers will trust their staff to work from home, facilitating team cohesion by events like morning and evening online meetings. Employees (especially parents) will value the flexibility associated with working from home. Homes will slowly be modified to make home-working easier. Cars will become intermittently-used public services, and with no ‘peaks’ public transport will become cheaper, more flexible and more comfortable. How sustainable will the outcome be? That remains to be seen, but I suspect that things will never be quite the same again. Going back is not a sustainable option. n
Dr Peter Rickaby is an independent energy and sustainability consultant. He helps to run the UK Centre for Moisture in Buildings (UKCMB) at University College London, chairs the BSI Retrofit Standards Task Group, and is active in training building professionals in retrofit coordination and risk management.
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As Ecocel cellulose is pumped in it achieves a level of air-tightness not possible with any other sheet or roll out material. Ecocel will last the life span of the building and make building safer in event of fire. Ecocel Ecocel, due to its natural fibres creates a healthy indoor air quality and is Carbon Negative when installed.
COUNTY DUBLIN
CASE STUDY
ENERGY BILLS
€125
PER MONTH FOR ALL ENERGY (estimate, see ‘In detail’ for more)
Building: Deep retrofit & extension of 1960s cavity wall house Location: Blackrock, Co Dublin Standard: A3
26 | passivehouseplus.ie | issue 34
CASE STUDY
COUNTY DUBLIN
NORTHERN EXPOSURE Deep energy retrofit transforms north-facing Dublin seaside semi
Even though its stunning views lay directly northward, simple design, good detailing and lots of insulation have turned this 1960s semi on the edge of Dublin Bay into a warm and light-filled low energy home. Words by John Cradden
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COUNTY DUBLIN
CASE STUDY
I
f you’re an experienced architect who has taken the opportunity in recent years to learn about building performance and energy efficiency, the chances are it will have a seismic impact on the way you design any future projects. One upshot is that projects like this attractive retrofit of a 1960s four-bed semi-detached house in Blackrock, Co Dublin, are all about achieving an equal balance between quality design and thermal performance. The rear of the house is north facing but with probably one of the best views anywhere of Dublin Bay, taking in the iconic red and white twin chimneys of the Poolbeg power station all the way over to Dun Laoghaire harbour. When Ruth and Tom Jenkinson fell in love with and bought the original property in 2017, it was an E-rated dwelling with a small 1980s style extension that hadn’t been lived in for some time. But they quickly commissioned Trevor Dobbyn of Fabrica Architects with a brief for a modern, well-insulated house that maximised the view, and which needed minimal maintenance. It also needed to be adaptable to living on the ground floor. The accommodation brief was achieved
The rear of the house is north-facing but with one of the best views of Dublin Bay.
28 | passivehouseplus.ie | issue 34
by a short, single-storey extension to the front and a generous two-storey extension to the rear, while also being retrofitted to an A3 building energy rating (BER). Naturally the aim was to open up those amazing views, so the primary challenge was how to offset the large amount of glazing that would be needed at the north-facing rear with the potential for heat loss. “Therefore, the overall performance of the building was of equal importance to the quality of the interior looking out onto Dublin Bay,” says Dobbyn. Having worked for the prestigious Dublinbased practice de Blacam & Meagher Architects since qualifying in 1997, Dobbyn was one of the first to enroll in DIT’s diploma in thermal bridge assessment in 2013, which he followed up in 2016 with the same institu-
tion’s professional energy skills in NZEB course, and also the RIAI environmental accreditation. “It’s very difficult to un-see a thermal bridge once you’ve learned about them,” he says. Before that, “the kind of physical performance of the building would have been further down the list originally when you’re doing designs, so when you learn that kind of skill, it lends itself to trying to balance a building that’s as efficient as possible but is also aesthetically pleasing. “So, there’s a bit of a trade-off depending on what you’re trying to achieve... some bits you might feel the design is worth pushing more than the thermal performance and vice versa. You’re trying to detail it so you’re not causing thermal bridges... and you can be kind of restricted in how it looks if you’re
CASE STUDY
just purely going for thermal performance.” This approach explains details like the slender pillars at the front, supporting the large canopy and covered entrance that gives vital shading at the south-facing facade, but which lightens the look and closely matches the shape and feel at the rear. “The use of shading canopies and projections allows the front and rear elevations to be broken into more slender forms,” Dobbyn says. “They are outside the insulation envelope so they can be much lighter. While the rear canopy is technically not for solar shading, it is angled to face Dun Laoghaire harbour, and allow the owner to have his morning coffee in shelter, while also allowing me to hide the parapet above the sliding doors.” The 1960s semi-D is of a solid-block construction, so in order to maintain the consistency in terms of the construction materials and method, it made sense to opt for a masonry build for the extension, with the whole shell wrapped in EPS external insulation, finished with an acrylic external render. Other fabric measures included passive certified, triple glazed timber alu-clad
Photography: Artur Sikora
windows all round (with exception of the rooflights), and insulated stone floors with underfloor heating, while the pitched roof was rebuilt with new counter battens, airtight membrane and Xtratherm insulation boards. The garden is fairly small, but another touch was to install a pillarless safety glass wall at the end to preserve the view, particularly from a sitting position. A 12 kW Panasonic Aquarea air source heat pump handles the heating duties, while a Lunos E2 demand-controlled heat recovery system looks after ventilation. Supplied by Galway firm Partel, it’s a decentralised ventilated system with automated humidity control. It was chosen because it is a ductless, self-contained system, mitigating the need to do extensive modifications to install ductwork, particularly given the steelwork required for the extension. Coming from a traditional gas boiler and central heating system, the adjustment to this new heating-and-ventilation arrangement took a while for the Jenkinson’s. “It is simple to operate. You choose the temperature you want at each room thermostat and
COUNTY DUBLIN
the machine does the rest,” says Ruth. “It takes longer to build up or reduce the heat than a gas boiler system.” She adds that the ventilation certainly enhances the air quality but is audible . The final airtightness test was delayed pending the arrival of a new front door, so results were not available at the time of writing, but Dobbyn reports that while access to the relevant points in the building for airtightness measures was OK, some areas were a little tricky to get at, such as where there the roof rafters met the adjoining property, and the existing first floor joists. In all, the build progressed fairly smoothly starting in May 2018 and finishing in April 2019, although the completion was delayed because the windows were some six weeks late. “We were thrilled with the layout, ambience and the modern comforts,” says Ruth. “We were particularly pleased with the upstairs sitting room and the added brightness it gives to that level of the house. “Living in it has been a joy. We installed solar panels but we’re not sure how cost effective they are and perhaps we need
ph+ | county dublin case study | 29
COUNTY DUBLIN
CASE STUDY
Slim and compact. For small outside walls from 200 mm wall thickness
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New Build House, Leitrim Studio Red Architects Pitched Roof U value: 0.14W/m2K Wall U value: 0.20W/m2K Heating system: Geothermal Heat pump Photographs by Peter Grogan, Emagine
Achieve your vision ...with our support For industry leading building products and expert advice, visit our new website
ecologicalbuildingsystems.com 30 | passivehouseplus.ie | issue 34
Brands used: Pro Clima, Gutex, Thermo Hemp
CASE STUDY
COUNTY DUBLIN
CONSTRUCTION IN PROGRESS
1
2
3
4
5
6
7
8
9
1 & 2 The front and rear facades of the 1960s semi-detached house prior to renovation; 3 work underway on removing the existing small extension and windows at the rear of the house; 4 works carried out during the renovation included rebuilding the original pitched roof; 5 the new two-storey extension at the rear was designed to maximise the spectacular views across Dublin Bay, despite being north-facing; 6 underfloor heating installed throughout the ground floor; 7 & 8 pro clima Intello membrane to extension ceiling and roof window opening, with airtightness taping; 9 new alu-clad triple-glazed sliding doors were installed to the garden extension.
more panels. We certainly have a warm and comfortable home and the bills reflect a modern build.” Dobbyn is happy that the final result has achieved that vital balance between energy performance and design that completely fulfils the brief. “The clients have confirmed no issues with the storms during the year with the extent of glazing to the rear, and the view is just incredible,” says Dobbyn. If the Jenkinson’s have been confined to this home during the Covid-19 lockdown, you can certainly think of worse places to be.
WANT TO KNOW MORE? The digital version of this magazine includes access to exclusive galleries of architectural drawings. The digital magazine is available to subscribers on www.passive.ie
SELECTED PROJECT DETAILS Architect: Fabrica Architects Heat pump & underfloor heating: Base Engineering Ltd Civil & structural engineer: OBA Consulting Main contractor: Mark Whelan Building Services Mechanical contractor: John Thompson Plumbing Electrical contractor: Action Electrical Contractors Airtightness products: Ecological Building Systems External insulation: Green Zone Products Windows & doors: Passive Window Systems Ltd Roof lights: Cubo Screed: Ultraflo Flat roofs: Laydex Building Solutions Wood stove: Heatco Decentralised MVHR systems: Partel Solar PV: Base Engineering
We were thrilled with the layout, ambience and the modern comforts.
ph+ | county dublin case study | 31
COUNTY DUBLIN
CASE STUDY
SHOWROOMS: CORK, DUBLIN, GALWAY & BELFAST UNPARALLELED CHOICE OF PASSIVE CERTIFIED PRODUCTS – OUTWARD OPENING, INWARD OPENING, UPVC, ALUMINIUM, ALUCLAD
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www.munsterjoinery.ie WINDOWS & DOORS 32 | passivehouseplus.ie | issue 34
CASE STUDY
COUNTY DUBLIN
IN DETAIL Building type: Deep retrofit & extension to 147 m2 existing semi-detached house from 1960. New converted roof space, and single-storey extension to front. Finished floor area 183 m2. Location: Blackrock, Co Dublin Budget: Undisclosed Completion date: April 2019 BER Before: D1 (251 kWh/m2/yr) After: A3 BER (55.5 kWh/m2/yr) Energy performance co-efficient (EPC): 0.393 Carbon performance co-efficient (CPC): 0.285 Energy bills (after): The Jenkinson’s told Passive House Plus that their total electricity bill for 2019 (the house is all-electric) was approximately €1,500, which averages out at €125 per month for all heating, lighting, ventilation and appliances. Airtightness (at 50 Pascals): Incomplete, awaiting new front door to complete test. Ground floor Before: Uninsulated concrete floor & uninsulated suspended timber floor throughout. After: New insulated stone floor with underfloor heating throughout; 15 mm vein cut roman travertine on de-coupling matt, followed beneath by 55 mm Ultraflo liquid hemihydrate screed with underfloor heating & 30 mm edge insulation, 200 mm Ballytherm BTF floor insulation, 150 mm concrete slab & 40 mm edge insulation. U-value: 0.9 W/m2K
Walls Before: Solid concrete block walls with no insulation. After: 100 mm enhanced Atlas EPS insulation and acrylic render finish externally, on 215 mm hollow block or solid blockwork (proposed and existing), on 8 mm cement coat to inner blockwork to form airtight layer, on 38 mm Xtratherm Thin-R Insulation boards bonded with 12.5 mm plasterboard + skim finish. U-value: 0.19 W/m2K Party wall: Scratch coated & insulated with 50 mm Gutex woodfibre insulation in recesses to either side of the large chimney breast. U-value: 0.38 W/m2K Roof Before: Pitched roof with concrete roof slates on battens, on sarking felt, on existing joists, 100 mm insulation laid on flat between ceiling joists. After: Reused or replacement concrete roof tiles on new counter battens, on new sarking felt. Rafters replaced with new 150x44 mm C16 rafters with 100 mm Xtratherm Thin-R Pitched Roof rigid boards between. Intello Plus airtight & vapour control membrane to underside of rafters. Followed inside by 38 mm Xtratherm Thin-R boards + 12.5 mm plasterboard with skim finish. U-Value: 0.19W/m2K New flat roof: Resitrix CL roof membrane on 12 mm WBP, on 60 mm rigid Ballytherm PIR insulation, on 19 mm OSB/3 ply laid to falls on firring pieces, on 175x44 mm C16 joists with full-fill Gutex Thermoflex insulation, on Intello Plus airtight & vapour control membrane to
underside of rafters, on 35 mm services zone with 12 mm ply painted black, on 25 mm yellow pine battens white washed. New U-Value: 0.13W/m2K Windows & doors Before: Double glazed UPVC windows throughout. New triple glazed windows & sliding doors: Passive Window Systems triple glazed alu-clad windows & doors throughout, (4-16-4-16-4) U-value of glass: 0.6W/m2K Roof windows: Cubo double glazed roof windows on insulated timber upstands. Overall U-value: 1.2 W/m2K Heating system Before: Gas boiler & radiators throughout entire building. After: Panasonic Aquarea 12Kw air to water heat pump, with 200L buffer tank. Underfloor heating to ground floor and low temp aluminium radiators to first floor & converted attic space. Ventilation Before: No ventilation system. Reliant on infiltration, chimney and opening of windows for air changes. After: Lunos E2 decentralised demand-controlled heat recovery system with automated humidity control. Electricity 9.4 m2 solar photovoltaic array with average annual output of 2.2kW.
ph+ | county dublin case study | 33
DONEGAL
CASE STUDY
P I LOT LIGHT
PIONEERI NG DO N E GA L DE E P RE T R OF I T A ROARI NG S U C C E S S
34 | passivehouseplus.ie | issue 34
CASE STUDY
DONEGAL
ENERGY BILLS
€23
PER MONTH FOR ALL ENERGY (estimate, see ‘In detail’ for more)
Building: Deep retrofit of 1970s social housing scheme Location: Ballyshannon, Co Donegal Standard: Nearly Zero Energy Buildings (NZEBs)
A rundown 1970s scheme of one-bedroom, singlestorey social housing units in Ballyshannon, Co Donegal, has been transformed into a pioneering development of cosy, A-rated, NZEB-busting homes. The pioneering project – the first completed under Ireland’s deep retrofit pilot scheme – also breathed new life into an unloved green area and is expected to help fuel a regeneration project in the town. Words by John Hearne
West Elevation
East Elevation
South Elevation
North Elevation
Floor Plans
ph+ | donegal case study | 35
DONEGAL
CASE STUDY
P
rior to its refurbishment, the Ernedale Heights scheme of social housing in Ballyshannon, Co Donegal, presented a rogue’s gallery of problems. The three terraces of 11 homes were dark and cold. Despite the fact that they sat on a site that enjoyed a lot of southern sunshine, they faced north, away from the green areas that lay between them. Poor ventilation led to condensation, damp and mould growth – a major health concern for the elderly residents, and this was exacerbated by leaky roofs and insulation-free walls. The only heat sources were solid fuel fires and storage heaters, while the cramped design caused a raft of accessibility issues. Brian Carey of Clúid, the housing association which refurbished the homes, explains that conditions were so bad that five of the houses were uninhabitable and had been boarded up. “You’re talking single glazed windows and zero insulation. These were built back in the 1970s, and nothing had been done with them since then apart from emergency repairs. You had black mould along the tops and bottoms of the walls and no south-facing windows, so they were very cold and dark. Even though they’re small – no more than 35 m2 – they were very poorly laid out and did not make the most of the space.” Though the houses were not designed for older people, most of the tenants had been in situ for many years, and the majority had passed retirement age. So, the residents spent most of their time inside, leading to a very high heat demand. Heating bills were astronomical – as much as €4,000 per year for a three-room house (that’s three rooms, not three bedrooms), and the dwellings also required near-constant maintenance. Despite all this, residents loved the area. The estate is centrally situated – less than five minutes from the centre of Ballyshannon. Between the coastal location and the strong sense of community, there was a great appetite from the tenants to stay put and make the most of what they had.
36 | passivehouseplus.ie | issue 34
Brian Carey explains that the houses were originally owned by Donegal County Council, and that Clúid reached an agreement with the council to take ownership of the estate and regenerate it. The tenancies would transfer to Clúid on completion. The uninhabited houses would be filled with people from the council’s waiting list. In 2015, Clúid – the largest housing association in Ireland – started to look into the feasibility of addressing the shortcomings of the houses. Given the extent of the issues, a piecemeal solution was never going to work. The conclusion was that a refurbishment programme could be undertaken, albeit within very tight budgetary constraints. “We considered demolition,” says Carey, “but there were two reasons why it didn’t happen, the cost and the model. A new build would have been way out of our budget. Planning conditions would have required an increase in size from 35 to at least 52 m2. That on its own would have driven costs higher.” In addition, he explains, refurbishment was the preferred choice of Donegal County Council. They wanted to maintain the connection with these long-established houses and saw the project as a kind of pilot. The entire area had become quite run
down in the intervening years and Ernedale Heights could act as a standard bearer for a broader regeneration programme. Clúid funds its activities through a combination of private and public loan finance. The former comes from the Housing Finance Agency, while the latter takes the form of a capital advanced loan facility (CALF) direct from the Department of Housing. There is a rigorous approval process to qualify for these loans, and all financing has to be in place before the go ahead is given to begin work. The budget is always the starting point of a project of this nature, says Carey. “We don’t start with a lovely set of drawings. We see that we have X amount of money and ask, ‘What can we do with it?’” Next, Clúid and the county council began a series of consultative meetings with residents. “We wanted them to be part of the story,” says Carey. “These were the houses that they had been living in, and that they would return to. There was no point rebuilding the houses unless we dealt with the issues they had. We got them to list their problems, and there was a common thread. Cold, damp, lack of light, uneconomical and so on. This became our starting point.” Gary O’Connor of project architects,
Photography: Kelvin Gillmor
CASE STUDY
DONEGAL
CONSTRUCTION IN PROGRESS
1
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1, 2 & 3 The Ernedale Heights scheme of social housing prior to refurbishment. The 11 homes were dark and cold, and faced north, away from the green areas that lay between them; 4 the original wall cavities were uninsulated; 5 the slopes of the original roofs were too shallow, so they had to be taken down and rebuilt; 6 Ballytherm PIR insulation was installed where bathroom floors were taken up to create level access; 7 looking into the original 70 mm wall cavity before it was insulated; 8, 9 & 10 an external wall insulation system from Pw Thermal was chosen instead of internal drylining, thereby improving thermal performance without reducing internal space. It features 100 mm Kingspan Platinum EPS insulation, with a wet dash finish; 11 & 12 installation of the new front door — all windows and doors are double glazed units from Munster Joinery.
ph+ | donegal case study | 37
DONEGAL
CASE STUDY
SAME HOUSE, DIFFERENT HOME.
38 | passivehouseplus.ie | issue 34
CASE STUDY
DONEGAL
SELECTED PROJECT DETAILS
Rhatigan Architects, takes up the story. “The consultation process allowed us to ascertain the good and the bad of living in those houses, what were the items that they felt needed addressing, what inherent problems did the houses have. We had another forum once we developed our design and presented it to the residents. We outlined the works that we were going to do and got further input from them.” The consultation process, combined with a detailed survey of the houses, made it clear that they would need to be gutted to achieve even the most basic compliance. Apart from the absence of insulation, the slopes of the roofs were too shallow, and they had to be taken down and rebuilt. The extent of these works meant that given budgetary constraints, the design team couldn’t be too ambitious. They aimed for a C1 building energy rating (so between 151 to 175 kWh/m2/yr of primary energy demand, excluding plug loads). It was at this point that the SEAI announced its deep retrofit pilot programme. Clúid approached SEAI, and this ultimately became the first project in the country to secure funding under the scheme. This enabled the team to go much further than their original design. “All of a sudden, we were able to look at external wall insulation, heat pumps and PV panels. PV panels don’t suit everyone, but these tenants are in their houses all day, and so are in a position to use the power as it’s generated.” The original plan had been to pump the cavities and dryline the internal walls. While these measures would have brought wall U-values to regulation levels, it would have meant shaving precious inches from an interior that was already very small. Now, in addition to pumping the cavities with bonded bead insulation, the design team had the resources to opt for an external wall insulation system from Pw Thermal instead of drylining – in this case a polymer modified NSAI Agrément certified system that replicates the traditional wet dash finish, chosen to thereby deliver much better thermal performance without reducing internal space.
Heating bills are now a fraction of what they were. Airtightness in the original houses was very poor; in excess of 12 air changes per hour on average. Gary O’Connor says that the walls were re-plastered internally with care taken to seal all penetrations, as well as new airtight roofs being installed. These measures delivered a final average result of 3.0 air changes per hour. Given that the site is in a windy, coastal area, this makes a huge difference to comfort levels. The tenants were kept up to speed with what was happening throughout the build phase. Most were rehoused locally, and often came to see how things were progressing. Opening up the design to address the accessibility and orientation issues was of course key to the refurbishment. “We looked closely at the living spaces,” says O’Connor, “working out how to maximize the benefit of the passive solar gain within. We decided to re-orient the houses so that they were facing south. We put in double doors that opened out to a generous patio, and that connected both sides of the houses. We also made them dual aspect, so that they linked to their neighbours.” In addition to those vital solar gains, the re-orientation addressed one of the key problems the tenants had identified during the consultation phase – the fact that the houses were so dark. In turning them to face the sun, the architects were also able to make all of the spaces accessible, replacing internal and external steps with ramps. The front entrances are now much more accessible, and visible too, which gives a greater sense of security to the residents. Inevitably, fresh challenges arose as the construction team began stripping the buildings down. The need to replace the roofs was discovered early on. In order to secure
Client: Clúid Housing Association Architect: Rhatigan Architects M&E engineer: Doran Professional Services Civil & structural engineer: CHH Consulting Engineers Main contractor: PJ Treacy & Sons Quantity surveyor: Kilfeather QS Mechanical contractor: Emmet Travers Plumbing, Heating & Gas External insulation system: PW Thermal Building Solutions Ltd EPS insulation (bead and boards): Kingspan Insulation Insulation contractor: B Donaghey & Sons Ltd Roof insulation: Knauf Windows & doors: Munster Joinery Roofing: Conwell Roofing Heat pumps: Daikin, via Northern Refrigeration Services Ventilation: Aereco, via Northern Refrigeration Services Solar PV: Future Renewables BER assessor: Nationwide Energy Consultants
adequate airtightness and remove thermal bridges, the chimneys were also removed and the fireplaces blocked up. One of the big issues with the original layout was that the green spaces between the three blocks were not overlooked. Brian Carey says: “To say that these were unloved would be putting it mildly.” There were no paths linking the green areas, and no planting to soften their barren look. “For that reason, people didn’t engage with them. They didn’t meet here or go for walks or anything, so we put in little footpaths between the terraces, and each row is now connected through these well-tended lawns, which feature plants and flowers.” The south-facing patios now look over these landscaped areas. The introduction of new boundary fencing and landscaped boundaries gives ownership of these spaces to tenants, and helps to stop others taking shortcuts through the site. The tenants moved back in in December 2018, and so far, the reaction has been universally positive. Each Clúid scheme has a dedicated housing officer to deal with any issues that the tenants may have. During normal times, he or she visits on a weekly basis to check in with tenants, and Clúid puts in place a planned maintenance programme too. Despite the sophistication of the technology – Aereco demand controlled ventilation, PV panels and new Daikin air-to-air heat pumps, the tenants are confronted with simple controls – they only need to specify the temperature they require on a simpler digital controller, and there have been no issues as a result. “We’ve learned,” says Carey, “that you need to make it simple for people. Heating bills are now a fraction of what
ph+ | donegal case study | 39
DONEGAL
CASE STUDY
Nationwide Energy Consultants Single & Multi Fan Air Tightness Testing Part L Compliance Reports BER CertiďŹ cates Technical Assessments
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Bespoke A Rated Home OďŹƒces Find us on Facebook at Lidan Designs or visit www.lidandesigns.com 40 | passivehouseplus.ie | issue 34
CASE STUDY
DONEGAL
they were. The dwellings even meet Ireland’s new build standard for nearly zero energy buildings (NZEBs), with energy and carbon performance coefficients all under 0.3 and 0.35 respectively, as required by the 2019 version of Part L of the building regulations (see ‘In detail’ for more). “The difference between these houses, before and after, couldn’t have been more different – they were completely reconfigured,” Carey says. “All of the tenants were delighted with how they turned out. I called up a couple of weeks after they moved in and a couple of them were out on their patio drinking coffee. They were delighted to be back.”
WANT TO KNOW MORE? The digital version of this magazine includes access to exclusive galleries of architectural drawings. The digital magazine is available to subscribers on www.passive.ie
IN DETAIL Building: Deep retrofit of 11 x 1970s single-storey houses, all approx. 38 m2 floor area. Location: Ernedale Heights, Ballyshannon, Co Donegal Budget: €950,000 Completion date: May 2018 Space heating demand (DEAP, post-retrofit, sample dwelling): 28 kWh/m2/yr Number of occupants: 1-2 per dwelling Building Energy Rating (DEAP) Before: Average of G (736 kWh/m2/yr), ranging from 409 kWh/m2/yr (F) to 866 kWh/m2/yr (G), the large range caused by differences in heating systems and the fact some dwellings had double glazing and some had single. After: Average of A3 (56.50 kWh/m2/yr), ranging from 54.24 kWh/m2/yr to 58.91 kWh/ m2/yr) Energy bills (measured or estimated Before: Using the estimated pre-retrofit delivered energy for an average dwelling at Ernedale Heights, Bonkers.ie suggests an annual electricity bill of at least €1,773 (cheapest suggested plan) at May 2020 electricity prices. This assumes equal use of day and night rate electricity. Figure includes VAT and standing charges. In reality, residents were not likely to have been using this much electricity as this assumes the house is heated to 21ºC in living areas & 18ºC elsewhere, which would probably not have been the case in practice. After: Bonkers.ie suggests a cheapest annual available plan of €278 (€23 per month) based on average post-retrofit delivered energy (DEAP). This assumes equal use of day and night rate electricity. Figure includes VAT and standing charges.
Energy performance coefficient (DEAP): Average of 0.223, ranging from 0.217 to 0.23. Note 0.3 or lower is required to comply with Ireland’s definition of NZEB (Part L 2019). Carbon performance coefficient (DEAP): Average of 0.213, ranging from 0.208 to 0.22. Note 0.35 or lower is required to comply with Ireland’s definition of NZEB (Part L 2019). Airtightness (at 50 Pascals) Before: Average of 9.32 m3/hr/m2 (ranging from 7.95 m3/hr/m2 to 9.76 m3/hr/m2) After: Average of 2.83 m3/hr/m2 (ranging from 2.44 m3/hr/m2 to 3.66 m3/hr/m2) Ground floor Before: Uninsulated concrete floor After (if upgraded): No general ground floor upgrades were undertaken within the scope of works, however in places where radon sumps were installed or bathroom floors were taken up to create level access, Ballytherm PIR insulation was installed. Walls Before: 100 mm rendered concrete block outer leaf and inner leaf with un-insulated 70 mm cavity. After: 100 mm Pw Thermal Building Solutions external wall insulation with 100 mm Kingspan Platinum EPS insulation, followed inside by 100 mm original rendered block outer leaf, 70 mm cavity pumped with Ecobead cavity insulation, 100 mm masonry original inner leaf with new plaster finish. U-value: 0.17 W/m2K Roof Before: Insulation deteriorated to 25 mm.
After: Roadstone Donard flat pan interlocking roof tiles, on Tyvek roofing membrane, on new prefabricated timber trusses. Insulation was installed on the flat at joist level with 300 mm Knauf Earthwool fibre insulation with a thermal conductivity of 0.044W/mK laid in two layers; between joists and over joists to give a U-value of 0.13 W/m2K. Windows & doors Before: Single glazed, timber windows and doors. Overall approximate U-value: 3.50 W/ m2K New windows: Munster Joinery double glazed windows and doors, with 6 mm clear float, low-emissivity coating, 16 mm Argon filled cavity, 6 mm solar control outer pane. Overall U-value of 1.20 W/m2K. Glazing oriented to south in renovated dwellings. Heating system Before: Open fire and portable electric heaters. After: 1 x external Daikin air-to-air heat pump connecting to 2 x Daikin internal air conditioners per dwelling, one in the bedroom and one in the living room. Controlled via infra-red remote controller with temperature & timer function. Ventilation Before: No ventilation system. Reliant on infiltration, chimney and opening of windows for air changes. After: Aereco demand controlled mechanical extract ventilation. Electricity Renusol VarioSole on roof system with 6 JA Solar – JAM6 60/265 with a rated output of 1,590Wp was installed to the roofs of each unit.
ph+ | donegal case study | 41
CHURWELL
CASE STUDY
ENERGY BILLS
£28
PER MONTH FOR GAS BILL (estimate, see ‘In detail’ for more)
Building: Deep retrofit & extension of 1960s brick house into 150 m2 near-passive home Location: Stockport, Greater Manchester Standard: AECB Standard
42 | passivehouseplus.ie | issue 34
CASE STUDY
CHURWELL
GOOD STOCK STYLISH STOCKPORT RETROFIT ACHIEVES RADICAL ENERGY SAVINGS
This inspiring project may be exactly what the deep retrofit sector needs: an example of how to turn a bog standard, cold suburban home of little architectural merit into a climate champion delivering outstanding levels of energy performance, comfort and health, all while transforming the building architecturally. Words by David W Smith
ph+ | churwell case study | 43
CHURWELL
CASE STUDY
CONSTRUCTION IN PROGRESS
1
2
3
4
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7
8
9
1 The derelict 1961 suburban house was bought in a sealed bid in March 2016; 2 & 3 floor to wall junction, with 150 mm Dow Styrofoam and damp proof course at underside of external wall insulation; 4 airtightness detailing around windows, with windows to sit within the external insulation layer; 5 roof to wall junction, showing Rockwool insulation meeting the external insulation, and airtightness taping; 6 close-up of the 280 mm Graphite EPS external wall insulation, bonded to existing brickwork with min 10 mm continuous adhesive to form airtight layer; 7 & 8 airtightness detailing and insulation to Lindab ductwork, for the mechanical ventilation with heat recovery system; 9 Tescon Vana breather membrane lapped out under the roof with tiles, with external insulation being installed.
T
wo architects relocating from London with a young family took on the challenge of converting a derelict 1961 suburban house in Stockport, Greater Manchester into a passive house. Russel and Anna Hayden were excited about imposing their modern vision on what was then an ordinary property with brick and block cavity walls, in the hope of creating a replicable example that could be copied up and down the length of the country. The house they created has bright and spacious modern interiors that belie its relatively ordinary facade. And although the couple narrowly missed achieving the Enerphit standard for passive retrofits, their house performs superbly well and meets the slightly less demanding AECB Standard. “It was disappointing not to achieve passive house as I’m a great supporter of the thoroughness of the process, but we only just missed it. We achieved 1.18 air changes instead of the target of 1.0 and it doesn’t change the fact that the house is comfortable
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and pleasant to live in,” says Russel, who self-managed the project from his parentsin-law’s house across the road. “We also love the timeless Scandi simple look, and we’ve reused lots of things from the original house. We turned the rails on the stairs into door handles, and we sandblasted the cedar cladding from the dining room and put it in the hall.” The thermal performance of the retrofitted property has also easily surpassed that of the couple’s previous house in London – in both winter and summer. Two years ago, when temperatures rose into the mid thirties outside, the inside of their new house was no more than 25 or 26 degrees. “The roof light at the top of the stairs makes a huge difference as it creates a stack effect, so we only need one or two windows open downstairs to keep it cool,” Russel says. “Even when it’s less than five degrees outside, the one radiator downstairs is enough, and it barely comes on. Upstairs, the radiators are never needed.”
CASE STUDY
The clean indoor air has improved the sleep of Anna, who had bouts of insomnia in London. “It was noticeable as soon as we switched on the MVHR and felt the trickle of cool, filtered air that we both enjoyed deeper sleeps and vivid dreams. I’ve read scientific research suggesting the effect is caused by lower CO2 levels,” Russel says. Without dust, he adds, there are no spiders and even their dog’s hairs don’t settle and are easily sucked into the vacuum cleaner. Meanwhile, the triple glazing makes it so soundproof that the couple barely notice planes going overhead, and even slept right through a police car chase that ended in the garden of their next-door neighbour. The Haydens bought the derelict property for £310,000 in a sealed bid back in March 2016. It was in the popular Heatons area of Stockport, in Greater Manchester, which Russel says, “ticked a lot of millennial boxes”. “It’s green and leafy, with a good sense of community, but it’s a bit more suburban than nearby Didsbury. It was also opposite Anna’s parents’ house and they kindly allowed us to move in there while we got everything sorted,” he says. The couple hired a local builder who began ripping out the insides in April 2016. After he
had demolished all the internal walls and stripped out all the fittings, it left an empty shell. In the summer of 2016, the family left London, where Russel had worked for Nicholas Hare Architects, and Anna for Stanton Williams. They moved into the house of Anna’s parents, with their two children, Dexter, now eight, and Zoey, now five. To make the project affordable, Russel project-managed the retrofit from over the road. Meanwhile, Anna took a job as project director for the special exhibitions gallery at Manchester’s Science and Industry Museum, and the couple rented out their London property. The cost of converting the house came in at £170,000, but it would have been far more without Russel’s DIY skills. He had acquired a theoretical knowledge of techniques from the AECB CarbonLite Passivhaus Designer course and had shown a keen interest in sustainable design at his practice in London. “I procured all the materials and agreed with the builder what to do each day. I did all the taping as the sequencing is so critical and later on I did all the finishing off. The local builder was a fantastic help, spending many evenings on YouTube researching passive house techniques. That was a real bonus
CHURWELL
for us as it’s hard to describe accurately what’s required when builders haven’t done passive houses before. It’s one of the biggest challenges in the industry,” he says. Russel developed the design closely with environmental consultancy Enhabit, who provided passive house design services, airtightness testing, the MVHR system and the windows, and who have subsequently merged with fellow passive house specialist suppliers Green Building Store. “Russel didn’t need as much guidance as most of our clients because he was already knowledgeable,” says Akta Raja, director of Enhabit. “But one course doesn’t teach everything you need to know about the building physics of passive houses and getting all the detailing right. We helped Russel to build the PHPP model.” Even with the help of Enhabit and a design plan in place before they moved to Stockport, the practicalities of self-managing the project were far from straightforward. “I didn’t realise at the time just how passive house workmanship has to be a level above what the average builder is used to achieving. The course gave a flavour of how to do taping, for example, but it’s not the same as working on a whole house. You can
To make the project affordable, Russel project-managed it from over the road.
Photography: The Modern House
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CHURWELL
CASE STUDY
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CASE STUDY
have drawn every detail before you arrive on site, but lots of things crop up unexpectedly,” says Russel. Russel spent a lot of time over the Christmas period of 2016 laying industrial parquet flooring throughout the house while it was still empty, spending late nights sanding and re-sanding. “The floor is a key element as it provides a sense of unity throughout the house. The spaces all meld into one, which is lovely,” he says. As soon as he had finished installing the floor, the family moved into their new property in February 2017. Although it felt quite cold during that winter, the installation of 280 mm of thick expanded polystyrene to the exterior transformed the feel. The house has not been significantly altered structurally, which helped to keep costs down. The couple removed both kitchen walls and a chimney breast in order to create a large, open-plan space downstairs, with living room, dining area and kitchen. Upstairs they rebuilt partition walls in order to create three better-proportioned bedrooms, a bathroom and an en suite. Part of the large garage was converted into a shower room and utility space as part of a new timber-framed studio extension downstairs, which doubles up as an extra bedroom for guests. The extension is clad with cedar square-edge boards that Russel collected from a sawmill in Hereford and then air-dried naturally in the back garden. The same boards were used to clad the replaced tumbledown porch. On the roof, the old 1960s tiles were stripped off. New Larsen-truss type beams were fixed to the side of the existing rafters to make up the depth for almost 400 mm mineral wool insulation, before installing the new concrete tiles. On the ground floor, Russel and Anna opted to keep the existing slab and apply the insulation and screed on top, then the oak parquet flooring, which reduced some of the head space. To gain back some head space, they left the plasterboard off the ceiling joists, which also provided a more rustic feel. “It raised a few eyebrows, but we like it as it’s gnarly and a bit rough,” Russel says. “We also had to jet-blast the joists and underside of the floorboards [above ground floor] and paint them with intumescent paint to satisfy fire regulations.” Having not quite reached the Enerphit target for airtightness, Russel spent a day looking for small holes. But he soon realised that fixing the issues would require unpicking a lot of the structural work and cost a fortune. The primary air barrier for the original walls was the layer of continuous 10 mm thick adhesive that joined the external insulation to the brickwork (for the new extension walls it was 18 mm SMARTPLY OSB 3 board taped at junctions). “Our weak point was where the garage and the extension joined onto the rectangle of the house. There were quite a few areas where we didn’t have the parge coat. Next time, I would pay more attention to the continuity of the outer later, especially where you have the roof [of the extension] coming into the
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CONSTRUCTION IN PROGRESS
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1 & 2 Construction of the new roof with 325 mm deep OSB ribs creating cavities for the installation of new Rockwool insulation; 3 insulation and airtightness work around the opening for a new triple-glazed Fakro rooflight; 4 construction of the new timber-frame extension with 150mm studs waiting for insulation; 5 Insula structural thermal break under steel column; 6 Lindab spiral galvanised ducting for the Paul MVHR system.
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CASE STUDY
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CASE STUDY
cavity wall,” he says. “Once the air gets in there, there’s nothing you can do. When we dry lined the interiors, we could also have made them even more airtight as a second line of defence in case the outer one wasn’t working perfectly.” Enhabit’s Akta Raja sees the project as a great success. “It’s tricky when you’ve never done it before and you’re project managing, to achieve passive house, especially with an existing building. But it’s a great way of setting a target and there’s no reason to feel a failure if you don’t quite reach it. The energy consumption is still 90 per cent better than it would have been otherwise and all that carbon annually will be saved for the rest of a lifetime. Russel and Anna have created a genuinely brilliant house which is comfortable to live in and has great indoor air quality,” she says. She believes the AECB Standard is an excellent alternative to passive house. The AECB, of which the Passivhaus Trust is a subsidiary – was instrumental in bringing the passive house standard to the UK. Based on the same methodology but recognising that meeting the passive house standard can prove too challenging in some situations, the AECB Standard specifies good low energy performance via a fabric-first approach, utilising the passive house methodology and design software, PHPP. “Not only is it easier to meet, but members of the AECB are able to self-certify, which saves them the extra costs of passive house accreditation,” she says. “The project was a good learning experience and [Russel] has brought his deeper understanding of energy performance to his new work.” The AECB told Passive House Plus it is now poised, however, to allow only certified passive house designers and other suitably qualified individuals to self-certify projects to improve on quality assurance. Others will be able to hire qualified individuals for certification. Russel Hayden now works as an architect out of the house’s studio extension. The project was a good learning experience and he has brought his deeper understanding of energy performance to his new work. “Typically, I’ve been designing kitchen-diner extensions on the back of leaky Victorian semis. Clients like the juxtaposition of contemporary designs with the older house. I’ve also been involved in retrofitting older houses to make them more energy efficient. To date, I’ve not been commissioned to do a passive house, but I have the understanding now and I’d jump at the chance,” he says.
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SELECTED PROJECT DETAILS
Client: Anna & Russel Hayden Architects: Hesketh Hayden Passive house designer, M&E engineer, windows & doors: Enhabit Main contractor: Beswick & Son Electrical contractor: McDermott’s Electrical Services UK Airtightness testing: Peak Acoustics & Enhabit Mechanical contractor: David Holden Plumbing & Heating EWI installer: Pegasus Externals External wall insulation: S and B EPS Ltd External insulation system: JUB Systems UK Wall & roof insulation: Rockwool Floor insulation: Kingspan Sub-DPC insulation: Dow Thermal breaks: Insula Roof windows: Fakro Cedar cladding: HW Morgan and Sons Screeds: Foggs Floors Flooring: UK Wood Floors Radiators: Stelrad MVHR: Paul Ventilation ductwork: Lindab Sanitaryware: Duravit Roofing materials: Burton Roofing OSB: MEDITE SMARTPLY
WANT TO KNOW MORE? The digital version of this magazine includes access to exclusive galleries of architectural drawings. The digital magazine is available to subscribers on www.passive.ie
A VERY MODERN HOUSE
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ast year, Anna and Russel’s house was featured on the online journal of leading estate agency The Modern House, who kindly provided us with the main set of images that accompany this article, and who are effusive in their praise of the property. The Modern House has been credited by Esquire magazine as “rewriting the rulebook on estate agency,” and the agency says it “helps people to live in more thoughtful and beautiful ways”. “We profiled Anna and Russel at their home in Stockport as part of a series looking at wellbeing in the home,” The Modern House’s senior content editor Charlie Monaghan told Passive House Plus. “What we found was that, for Anna and Russel, building to passive house standards not only contributed to their feeling of physical wellness but came with immeasurable mental benefits too.” The agency also sees sustainability as growing considerations in the hous-
ing market. “Sustainability and energy efficiency are becoming increasingly important factors in a buyer’s decision to purchase a home as awareness of environmental issues are raised and buyers become more mindful of their carbon footprint,” says the company’s commercial operations director, Rosie Falconer. And while she says that the nature of a property and its location are still the most important factors for buyers, environmental concerns are gaining more weight. “The environment is becoming more prevalent in the social consciousness and design is always a response to society’s collective concerns. As such, we are noticing an increased focus on energy efficiency particularly in new builds, which we only see as strengthening over the coming decade.” You can read The Modern House’s interview with Russel and Anna at tinyurl. com/russelandanna.
Passive house workmanship has to be a level above what the average builder is used to.
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CASE STUDY
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50 | passivehouseplus.ie | issue 34 PASSIVE HOUSE PERFORMANCE - TRADITIONAL BUILD COSTS
CASE STUDY
CHURWELL
IN DETAIL Building type: Deep retrofit to link-detached two-storey house built 1961, plus new single-storey timber frame extension to rear. Finished floor area 150 m2. Location: Heaton Moor, Stockport Budget: £170,000 project cost Completion date: November 2017 Space heating demand (PHPP): Before: 423 kWh/m2/yr After: 25 kWh/m2/yr Heat load (PHPP): Before: 143 W/m2 After: 13 W/m2 Heat loss form factor (PHPP): 3.6 Overheating: 0% of year above 25C Number of occupants: 4 + dog Primary energy demand (PHPP) Before: 578: kWh/m2/yr After: 92 kWh/m2/yr Environmental assessment method: N/A Energy performance certificate (EPC) Before: G After: N/A Measured energy consumption: Before: N/A After: 69 kWh/m2/yr (Jan-Dec 2019, based on meter readings for electricity use) Energy bills Before: N/A After: £338 on gas annually (Oct 2018 - Oct 2019); £628 on electricity annually (Oct 2018 Oct 2019) Airtightness (at 50 Pascals) Before: 14 air changes per hour (ACH, estimated) After: n50: 1.18 ACH. Air permeability: 1.123 m3/ hr/m2. Both at 50 Pascals.
Ground floor: Before: Uninsulated concrete slab with embedded underfloor heating. After: Existing concrete slab (underfloor heating no longer used) followed above by 100 mm Kooltherm K3 insulation, 80 mm Retanol Xtreme screed, 25 mm industrial oak parquet finish. U-value: 0.187 W/m2K. Existing walls Before: Existing brick/concrete block walls with empty 70 mm cavity. U-value average: 2.03 W/m2K After: 280 mm Graphite EPS external wall insulation with JUB silicone render finish to existing walls. Insulation installed in one layer; bonded to brick with min 10 mm continuous (not dabs) adhesive to form airtight line. Mechanical fixings are 335 mm EJOT STRU 2G countersunk screws with insulation cover at 7/m2. U-value: 0.120 W/m2K. Below ground: 150 mm Dow Styrofoam from damp proof course (DPC, at underside of EWI) down to footings. Existing roof Before: Concrete tiles on battens on felt, no insulation After: Concrete tiles, battens and c/battens followed underneath by Pro Clima Solitex underlay (wind-tight line), continuous 60 mm Rockwool Hardrock DD slabs; roof structure built up with 325 mm deep OSB3 ribs fixed to side of rafters; 330 mm Rockwool Flexi between ribs, 18 mm SMARTPLY OSB3 boarding to underside of rafters, joints taped with Tescon Vana (airtight line). U-value: 0.111 W/m2K Extension floor: New 125 mm concrete slab with 200 mm Kooltherm K3 insulation, 80 mm Retanol Xtreme screed: U-value: 0.097 W/m2K. Extension walls: Vertical cedar cladding on battens and counter battens externally, followed inside by Solitex Fronta Quattro breather membrane, 140 mm Rockwool DD slabs, 150 mm timber stud frame with 150 mm Rockwool Flexi between, 18 mm SMARTPLY OSB3 boarding (airtight line), battens and plasterboard as service void. U-value: 0.119 W/m2K.
Extension flat roof: GRP waterproofing system on OSB3 tongue & groove decking externally, followed underneath by firring battens forming vented zone, Solitex Plus membrane with Tescon Naidec taped joints (wind-tight and waterproof line), 60 mm Rockwool Hardrock DD slabs, 300 mm deep OSB3 ribs with 310 mm Rockwool Flexi between, 18 mm SMARTPLY OSB3 boarding (airtight line), battens and plasterboard as service void. U-value: 0.179 W/m2K Windows & doors Before: Single glazed, timber windows and doors. Overall approximate U-value: 2.48W/m2K New windows & doors: Enhabit Scandinavian Slimline windows. Timber with aluminium cladding. Average U-value of glazing: 0.54 W/ m2K. Average U-value of frame: 1.29 W/m2K. Average g-value: 0.52 Roof window: Fakro FTT U6 triple glazed roof windows with thermally broken timber frames. U-value: 0.81 W/m2K Heating system Before: Underfloor heating to ground slab and open fireplace. Upstairs unknown. After: Viessmann 200-W 19kW system boiler with Vitotronic 300-K weather compensator; radiators with thermostatic valves. 250L Stelflow S250T twin coil cylinder with cylinder stat and backup 3kW electric immersion heater. Ventilation Before: No ventilation system. Reliant on infiltration, chimney and opening of windows for air changes. After: Paul Novus 300 heat recovery ventilation system, with Lindab spiral galvanised ducting. Passive house certified heat recovery efficiency of 94-94%. Green materials: Cedar cladding from Hereford, timber frame to extension, parquet flooring. Items re-used from original house include internal cedar cladding, balustrades as door handles, steel storage shelves as fence panels, old brick walling as hardcore.
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SEA CHANGE L U X U R Y Z E R O - E N E R G Y PA S S I V E A PA R T M E N T S RISE ON THE DEVON COAST
Built mostly with clay blocks and sited above the sandy shores of Seaton, on the Devon coast, this new development of eight high-end apartments not only meets the passive house ‘plus’ standard — meaning it pairs the requisite ultra-low energy fabric with a substantial amount of renewable energy generation — but it also boasts serious attention to the use of ecological and healthy materials. Words by David W Smith
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CASE STUDY
DEVON
ENERGY BILLS
£0.91
PER DAY FOR ALL ENERGY USE* *One apartment, based on 10 months monitored data Building: Five-storey block of eight luxury apartments, 101 m2 to 138 m2 each Location: Seaton, Devon Standard: Passive house plus certified
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he county of Devon has been a hotspot for passive house development for more than a decade. Exeter City Council, in particular, has backed numerous schemes, including affordable housing schemes and a leisure centre with a swimming pool. Recently, the £3 million Seaton Beach development on Devon’s coast became the first multi-unit residential building in Britain to achieve passive house ‘plus’ certification. The project also won awards for best sustainable residential development in the UK and best apartment in Devon (for its top-floor penthouse) from the International Property Awards. The presence in Exeter of passive house architects, Gale & Snowden, has helped to accelerate the trend for large scale passive
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house development in the area, and the five-storey Seaton Beach was no exception. Although the original design was produced by a different architect, Gale & Snowden later worked on the passive house elements. At the outset, however, Mike Webb, managing director of Seaton Beach Developments Ltd (SBD), had not intended to build to the passive house standard. Webb simply wanted to develop a block of eight luxury apartments with sea views in this small coastal town, near Lyme Regis. “Seaton Beach was a rare chance find for a speculative development. We were visiting friends in Devon in May 2015 and happened to walk past a large Victorian property for sale on the sea front. We quickly formed a development company with a friend who backed the
venture, and bought it for £515,000 two weeks later,” says Webb, who lives in Tenbury Wells, in Worcestershire, where he and his wife own rented properties and a solar installations company. The rather downtrodden and unremarkable old building was knocked without issue, and Webb’s co-directors, Mike and Anne Dowling, selected Exeter architects Clifton Emery Design to produce plans for the new tower. Webb was happy with Clifton Emery’s design, describing it as “beautiful, curved and artistic”, but the local planning officer was less enthusiastic and, consequently, the planning committee denied permission by one vote in July 2016. Their concerns centered on the height and depth of the building and its relationship to the properties adjoining the
CASE STUDY
DEVON
It’s an attempt to look at the living environment more holistically.
narrow site. But Webb believes they “failed to see the regenerative potential”. The battle for planning permission went on for several months. In the end, SBD turned to the local design review panel for support. The panel endorsed the scheme and, finally, East Devon District Council approved planning in November 2016. At this point it became clear that the south-facing orientation and form factor made it possible to build to the passive house standard. “Over the years I’ve become passionate about passive houses and it seemed a great way to leave a legacy to the earth,” Webb says. “I realised this development was the best chance I would ever get to do that.” To be confident of achieving the standard, Webb needed a practical specialist in passive house design to complete the work started by Clifton Emery. In February 2017, when Webb met architect Tomas Gaertner – the man he dubs “the German genius” – he knew he had found the right man. Gaertner was at that time a director at Gale & Snowden. He had trained and worked as an architect in Germany, the birthplace of passive house. But he had only designed a handful of residential passive houses there before moving to the UK in 2007. Gartner’s arrival in Exeter proved timely, as his skills in energy efficient design were in great demand. The influential Emma Osmundsen, managing director at Exeter City Living group — the local authority’s development arm — provided the political clout that made a lot of passive house development possible. Gaertner’s first passive house scheme in Exeter was the influential Knights Place affordable housing scheme, in 2010. Now working for SE3Design, he has continued to collaborate with Osmundsen, mainly on larger commercial developments (Gaertner left Gale & Snowden part way through this project and Lawrence Millyard took over as project architect). Gaertner did not need to make major structural changes to Clifton Emery’s design for Seaton Beach. His main role was to take charge of the passive house detailing. “There were no drastic changes, although the final design was a bit higher to allow for [more]
Photography: Norrsken / Dug Wilders
insulation in the penthouse, and to make space for the roof terrace,” he says. Clifton Emery’s plan, however, had proposed using a concrete frame for the entire structure, but Gaertner says this would have been more expensive and made the detailing of airtightness junctions more difficult. Instead, Gaertner proposed building the ground floor in concrete, using poroton clay blocks from the first to the third floors, then installing a timber frame for the penthouse on the fourth floor. He explains that with a concrete frame, structural elements such as columns and floors are separated from the space-enclosing elements (i.e., the external walls) by movement joints and gaps between infill wall panels and ceilings, to allow for deflection. For airtightness, this would require flexible junction details using membranes and tapes. “Tape details — especially in a wet, dusty construction — are higher risk as substrates are often not adequate and tapes are prone to delaminate and fail,” Gaertner says. “The block construction allowed for a simple plaster detail for airtightness without any junction tapes.” The poroton blocks are also aerated and thus provide insulation, which appealed to Gaertner as it meant he could avoid the use of plastic insulation for most of the building. The top floor steps back from the rest of
the building below, so to reduce its weight and allow it to be built without additional steel beams or lintels, it was built with a timber frame. Gaertner’s approach to passive houses has been influenced by building biology, the construction philosophy that emerged in Germany in the 1960s. “It’s an attempt to look at the living environment more holistically. We consider the impact of the materials on both the living environment and the ecological environment. We try to be energy efficient and use renewables, but at the same time not compromise on materials. It’s about avoiding poor air quality and mould. We also follow the World Health Organisation’s standards for healthy indoor environments,” he says. At Seaton Beach, for example, the use of monolithic clay block follows the principles of building biology. “It’s highly hygroscopic [meaning it can absorb and release moisture] and moves moisture around in the building, which will help to regulate internal humidity,” Gaertner says. Another feature of Seaton Beach in keeping with building biology was the use of AURO natural mineral paints. “They contain no additives, such as fungicides. The higher lime content means the paint acts as an anti-fungal and doesn’t create a chemical problem. In contrast, when you use non-permeable emulsion paints, the moisture cannot move into the walls quickly enough. The only way to get rid of it then is with ventilation. It’s especially important in winter to have the buffering potential in the walls.” Following building biology principles is easier in the south west of England than in some other parts of the UK because the region has a mild climate, Gaertner says. This means it’s possible to reach the passive house standard with less insulation.
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DEVON
CASE STUDY
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CASE STUDY
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CONSTRUCTION IN PROGRESS
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Detail showing Isokorb thermal breaks where the balconies meet the Porotherm clay block walls
1 Work begins on the project with the knocking of the existing structure, a large, unremarkable Victorian property on the seafront; 2 & 3 construction under way of the ground floor structure, which features 300 mm Dow XPS insulation; 4 the bulk of the structure was built using poroton clay blocks, which are aerated and thus provide insulation; 5 plastering of this blockwork internally provided a straightforward way to make the walls airtight; 6 windows are Norrsken composite timber and marine grade aluminium triple glazed units, with solar shading provided by the defining aesthetic feature at Seaton Beach â&#x20AC;&#x201C; the buildingâ&#x20AC;&#x2122;s generous curved sea-facing balconies; 7 the fourth floor penthouse apartment was built with a timber frame, and steps back from the rest of the building below to reduce its weight; 8 ductwork for the Genvex combined ventilation and air-toair heat pump, installed in each apartment; 9 the roof of the building, five floors up, is insulated with Warmcel cellulose insulation and finished with a Bauder membrane; also seen are the openings for two Velux tripleglazed rooflights.
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CASE STUDY
KERS Heat Recovery Ventilation The best solution for condensation & mould growth problems Up to 97% heat recovery Simple to install On board controls Keeps you & your building healthy
KERS is a high-efficiency heat recovery device, specifically designed to install room-by-room in a heat recovery ventilation system. KERS boasts a high-efficiency ceramic recovery core that enables it to attain a heat recovery efficiency up to 97%. If KERS is installed in each room, it will improve the overall energy performance of the building and its energy class. The flow rate is up to 50 m3/h, that means that KERS can change the air quickly and silently, but without any energy waste. In winter the ventilation by KERS keeps humidity in check and thus prevents or solves the problem of mould formation in the corners of the rooms. KERS can work as stand-alone, or it can be controlled via the remote control supplied with each unit. Several operation modes (free cooling, extraction only, heat recovery, humidity-activated ventilation)make sure the optimal comfort is always in reach. KERS does not require any separate wall mounted controls, dispensing with the related masonry and wiring work. KERS is the easiest way to deploy a heat recovery ventilation system in an existing building. A combination of the hexagonal-cell ceramic core and inverter fan motors ensure record-setting performance. Further to that, humidity-activated ventilation and remote control are supplied as standard. KERS.25 is suitable for heat recovery ventilation of rooms up to 10 sqm for each device. KERS.50 for rooms up to 20 sqm. To ventilate rooms bigger than this, more than one device can be installed. KERS can be installed virtually anywhere, core drill a hole through the wall, (diameter 160 mm for KERS 50, 110 for KERS 25), wire it to the electrical mains, and the product is ready to be used. The elegant design of the indoor panel make it blend with the indoor decor. As an accessory, flexible grilles are available in white or copper finish allowing the complete installation of KERS from inside the building, without any outdoor scaffolding.
How can KERS recover energy? The device extracts exhaust air from the room for 65 seconds, as the airflow goes through the ceramic core, it heats up. The ceramic core stores the heat for the next phase: The fan changes direction and the fresh air coming from outside goes through the same ceramic core. The core heats the air with the previously stored energy. The result: fresh air coming from outside, at almost same indoor temperature. The same process works in summer too, so KERS saves energy all-year around.
For further information contact Precision Heating T: 01 809 1571 E: info@precisionheating.ie W: www.precisionheating.ie
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“It’s inevitable when you push for higher insulation levels, especially on commercial developments, that you end up using some petrochemical materials because the projects otherwise become too expensive,” he says. “With the milder climate, we can get away with much less insulation… [the poroton walls here for example have a U-value of 0.26).” Rather than install a lot of insulation at Seaton Beach, Gaertner maximised the free energy savers from the block’s good orientation and form. It was especially critical to pay attention to the window detailing. The original design had curved triple glazed windows, which had to be replaced with straight-edged ones. The biggest problem with the original design was a three-metre-high, three-sided glass window in the penthouse. It provided beautiful sea views but would have acted like a greenhouse. Gaertner designed a lot of solar shading to prevent overheating, reducing the glazing to a more sensible proportion while retaining the views. That solar shading was provided by the defining aesthetic feature at Seaton Beach – the building’s generous curved sea-facing balconies from Surrey-based specialists Balconette – including curved glass balustrades and marine grade chrome handrails to make the most of the sea views. This feature serves as a striking counterargument to the notion that the passive house standard, which is easier to achieve with simpler, box-like forms, leads to prosaic buildings, even where the envelope remains box-like, as in Seaton Beach. Good architecture embraces restrictions. With a little design ingenuity, and the use of Schoeck Isokorb thermally broken balcony connectors, a box-like building is wrapped in beautiful yet functional curves, while enhancing rather than compromising the building’s energy performance. A mechanical ventilation system further enhanced energy saving. “All these various measures meant we were able to compromise on the U-values and use materials with benefits for the environment, ecology and health,” he says. Each apartment has a Genvex Combi 185 BP combined ventilation and air-to-air heat pump, which can heat up 185 litres of stored water. To back it up, there are three electric towel rails and two
wall-mounted electric radiators in case of extreme weather. On the roof, there are 49 solar PV panels with a maximum output of 16kW and an annual yield of 14,234 kWh. The addition of the solar panels along with the Genvex heat pump took the PHPP calculations into the “plus” category. Webb attributes the success of the Seaton Beach project to what he calls “education and collaboration”. The “collaborative” element came from the close cooperation of all parties, many of whom had already worked together on other passive houses. Meanwhile, the “education” of the on-site workers in how to build passive houses was important because the building contractor Classic Builders SW was not an experienced specialist in the field. At the start, Webb took a team of 30 building workers for a day’s training with the passive house specialist Peter Warm, in Plymouth. “It taught them everything they needed to know about building passive houses, which put everyone’s minds at rest as they were under a lot of pressure to deliver,” he says. Additionally, Robin Pike, the Classic site manager, took on the role of airtight champion and delivered some exceptional airtightness results. Webb also engaged quantity surveyors Randall Simmonds and structural engineers StructureHaus, who had previously worked with Tomas Gaertner in Exeter. Despite the well-informed team, the project overran by six months. It was completed after 18 months in October 2019. Some of the delays were down to the strong, squally winds that blew in from the sea. “One example was when five articulated lorries arrived from Bristol in March last year carrying concrete planks, but we had to send them back as it was too windy to lift anything,” Webb says. “Using higher quality products drove up the price and led to time overruns, but we wanted to use the best materials, such as the zinc shingles that clad the penthouse.” Webb already had several years’ experience of working with renewable technologies and qualified as a passive house consultant during the build. He acted as clerk of works, travelling regularly from Worcestershire to Devon. In July 2019, one of the apartments became a show home and in August, the first permanent resident moved in.
DEVON
Webb also decided in January 2020 to turn the penthouse apartment into an art gallery, partly to showcase local artists, but also to attract potential buyers. To date, Webb has sold five of the eight units, and another potential sale is on hold because of the fallout from Covid-19. The penthouse was put on the market in time for summer, but again it had to be postponed due to Covid-19. Once the Covid-19 crisis is over, Webb will resume his plans for more passive house developments near his home in Worcestershire. He also acts as a consultant for potential passive-house builders. “With everything I’ve learned on the Seaton Beach project, I could save people a fortune on architects’ fees and help them work closely with the designers of their homes,” he says.
WANT TO KNOW MORE? The digital version of this magazine includes access to exclusive galleries of architectural drawings. The digital magazine is available to subscribers on www.passive.ie
SELECTED PROJECT DETAILS Client: Seaton Beach Developments Architect: Gale & Snowden Initial/planning architect: Clifton Emery Design M&E engineer: Gale & Snowden Passive house & building biology consultants: Gale & Snowden M&E contractors: Total Home Environment & Fords of Sidmouth Civil & structural engineer: StructureHaus Main contractor: Classic Builders (SW) Ltd Quantity surveyors: Randall Simmonds Mechanical & electrical contractor: Fords of Sidmouth Airtightness tester: New Barton Contracts Heating & ventilation system: Total Home Environment Passive house certifier: WARM Timber frame: Allwoods Cellulose insulation: Warmcel, via Smart Construction SW External wall insulation: McCarthys Contractors Ltd Poroton blocks: Wienerberger Thermal break: Schoeck Balcony systems: Balconette Floor insulation: Dow Airtightness products: Green Building Store Airtight OSB: MEDITE SMARTPLY Windows & doors: Norrsken Roof windows: Velux Shading: RSL Roller Shutters Zinc cladding: Pace Roofing & Cladding Carpets: Axminster Carpets Roofing: Bauder Solar PV: Wind & Sun Ltd Lighting: Fords of Sidmouth
Read more about this project in detail
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DEVON
IN DETAIL Building type: Five-storey new build apartment block of 8 units with 870.7 m2 total floor area. Apartments ranging in size from 101 m2 to 138 m2. Location: Seafront site in Seaton, Devon Completion date: November 2019 Budget: £3.5 million (inc. site purchase of £515,000) Passive house certification: Passive house plus certified Space heating demand (PHPP): 12 kWh/m2/yr Heat load (PHPP): 11.2 W/m2 Primary energy demand (PHPP): 100 kWh/m2/yr Primary energy renewable (PHPP): 54 kWh/m2/yr Overheating (PHPP): 1% of year above 25C Number of occupants: PHPP based on 20.1. Actual to date 6-10 as some are second homes. Airtightness (at 50 Pascals): 0.5 ACH Energy performance certificate (EPC): All units A-rated (97-99) Measured energy consumption: Unit X is occupied full time by a single person and from 4 August 2019 to 4 June 2020 (10 months) total electricity imported was 2,009 kWh. A further 744 kWh was used direct from the 2 kWp solar PV array. When PV production exceeded the apartment’s demand, a further 1,184 kWh of PV produced electricity was exported. The other apartments & the communal areas can use this first, before being exported to the grid. From the 10 months actual consumption (and
applying May data for June and July), an annual use of 2,753 kWh can be forecast. The Genvex Combi MVHR & heat pump unit in Unit X uses 1,457 kWh/yr (121 kWh per month avg). The remaining 1,295 kWh includes 3 x towel rails which are designed to meet 50% of heat demand. See below for solar PV electricity production. Energy bills: For Unit X above, the total annual energy costs are £333. Thermal bridging: All thermal bridges were numerically modelled to demonstrate compliance with the passive house standard. Ground floor: 250 mm compacted base followed above by 25 mm sand blinding, 1 mm DPM, 300 mm Dow XPS insulation, separating layer, 200 mm reinforced concrete slab, 10 mm acoustic mat & 65 mm screed. U-value: 0.141 W/m2K Walls Ground floor: 16 mm Alsecco render externally followed inside by 200 mm Neopor EWI, 215 mm concrete block, 15 mm plaster. U-value: 0.194 W/m2K First to third floors: 16 mm Alsecco render externally followed inside by 365 mm Poroton T10 block by Wienerberger, 15 mm Plaster. U-value: 0.259 W/m2K Fourth floor: Factory-built timber frame by Allwoods with marine grade zinc cladding externally on 22 mm ply, followed inside by 50 x 50 mm treated battens and counter-battens, pro clima Solitex Plus membrane, 12 mm OSB board, 180 mm Warmcel-filled TJI stud, 15 mm taped and sealed Smartply Propassiv, 50 mm service cavity and 15 mm plasterboard & wet plaster skim internally. U-value: 0.141 W/m2K Roof: Factory-built timber frame by Allwoods with Bauder membrane externally on 22 mm ply, followed inside by 50 x 50 mm treated battens, 22 mm ply, 310 mm Warmcel-filled TJI stud, 15 mm taped and sealed Smartply Propassiv, 50 mm service cavity and 15 mm
plasterboard & wet plaster skim internally. U-value: 0.081 W/m2K Windows & external doors: Norrsken composite timber and marine grade aluminium triple glazing, with argon filling and an overall U-value of 0.82 W/m2K average. Roof windows: 3 x Velux GGU triple glazed roof windows. U-value: 1.01 W/m2K Heating & MVHR combined system: Genvex Combi 185 BP MVHR unit combined with micro air source heat pump (330W) with 2 x 71W fans provides 50% of heat demand. This is topped up by 3 x 150W direct electric towel rails & then for extreme weather 2 x Dimplex wall-mounted radiators. The Genvex Combi unit also heats 185L of stored hot water & also has a 1 kW immersion for faster recovery. The Genvex Combi 185 is Passive House Institute certified to have heat recovery efficiency of 71.2%. Water: Above ground rainwater harvesting tanks, low flow fixtures in all areas. Electricity: 49 panel REC 320W solar photovoltaic panels (covering 80.2 m2) with maximum output of 16 kW & annual yield of 14,234 kWh. The array feeds the 8 x 2 kWp inverters, one for each apartment. Sample unit: Based on the first 10 months data – again with May data applied to June and July - Unit X is projected to produce 2,034 kWh of electricity, of which 1,184 kWh is exported to other units/ communal facilities before any excess is exported to the grid. The full building receives a £1,000 feed-in tariff each year which is used to subsidise residents’ service fees. Green materials: Recycled wood from demolished house used for pergola, stone from demolition used for boundary wall, Warmcel cellulose (recycled newspaper) insulation, Auro natural paints, 100% wool carpets locally sourced from Axminster carpets, all timber from PEFC certified sources, clay blocks recyclable at end of life.
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DEEP RETROFIT & STIMULUS IS AN UPGRADE REVOLUTION THE ECONOMIC TONIC TO TACKLE COVID? With governments across Europe looking for ways to jump start their economies following the early impact of Covid-19, attention is increasingly turning to deep retrofit. But while there is strong evidence that deep retrofit could play a major role, the devil will be in the detail – and the challenge of dramatically upscaling a nascent industry shouldn’t be underestimated.
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I
n April, the Financial Times gave the world’s governments a grave warning. “The Covid-19 pandemic has shown the lethal folly of ignoring expert warnings about the need to be ready for calamity... This should be uppermost in leaders’ minds as they struggle to rebuild stricken economies.” The leader writers urged governments to use their spending power “to help stimulate a recovery… that does not lock in a fossil-fuelled economy. The situation could not be more urgent; for the world’s beleaguered workforces, and also for the climate.” The coronavirus pandemic is expected to cost the global economy between $6tn and $9tn; this prediction doubled between April and May. The International Labour Organisation predicted cutbacks equivalent to nearly 200 million full-time workers would take place between April and June of this year. The UK and Ireland, who in common with much of Europe both had severe lockdowns lasting several weeks, are suffering major economic stress. And climatologists are predicting that 2020 could be the hottest year ever recorded. The last 12 months have seen accelerating ice melt and record temperatures near both poles. Carbon dioxide levels have just topped 416 parts per million, probably the highest level for 800,000 years. The FT leader joined an international chorus calling for green rebuilding. The United Nations told governments to “build back better” — more sustainable, resilient and inclusive. The International Energy Agency is urging nations to make clean energy technologies, and energy efficiency in particular, a key part of stimulus packages. In the EU a “green recovery alliance” of most member states, including Ireland, and a slew of large corporations, has signed a joint statement warning that “Covid-19 will not make climate change and nature degradation go away” and that running to panicked economic fixes that lock in fossil fuel use would be counterproductive. In Ireland, there is a clear focus on construction – retrofit and new build – to restart the economy. Business confederation Ibec is campaigning for its Covid recovery plan ‘Reboot and Re-imagine’, which calls for government support for new construction, in particular social housing, and for “an ambitious national deep retrofit programme” with a new delivery and financing model to upgrade buildings to B1 and A energy ratings. And as Passive House Plus went to print, a draft programme for government had just been agreed between Fianna Fáil, Fine Gael and the Green Party that contained a commitment to retrofit 500,000 homes to at least B2 rating over five years. Just transition In the UK, the Committee on Climate Change (CCC) wrote in May to the four UK governments urging them to rebuild
after Covid-19 “whilst delivering a stronger, cleaner and more resilient economy”. Covid has hit disadvantaged communities harder, in multiple ways, and the CCC was forthright, calling on UK governments to embed fairness as a core principle of a green recovery. “The benefits of acting on climate change must be shared widely, and the costs must not burden those who are least able to pay, or whose livelihoods are at risk,” the CCC’s letter said. CCC chief executive Chris Stark, and Julie Hirigoyen, chief executive at the UK Green Building Council, both point out that construction and retrofit is one of the best ways to create jobs, per £1 or €1 invested. “Energy efficiency is ‘shovel ready’ – with labour-intensive projects rooted in local supply chains,” Hirigoyen says. A report for the International Energy Agency (IEA) agrees, stating: “When homes are upgraded to higher efficiency standards, more than half of the total investment typically goes directly to labour.” A very comprehensive analysis of the value of green versus ‘standard’ stimulus packages by the Smith School of Enterprise and Environment, at the University of Oxford, confirmed that boosting green construction is a highly effective way to create jobs, and thus repay the investment long-term. A team of 230 economists from around the world was asked to rate 700 stimulus packages implemented after the 2008 financial crash. They found construction projects retained more of the investment locally, adding that clean energy in particular (both renewable generation and energy efficiency work) was “helpfully very labour intensive in the early stages” with up to three times as many jobs being created per £1 invested, compared to investments in fossil fuel. Unconditional airline bailouts, by contrast, “performed the most poorly in terms of economic impact, speed and climate metrics.” Wider benefits As well as creating jobs, construction-focused green stimulus brings numerous other benefits, in particular to the least well-off. This was highlighted in a report last year by the Irish Congress of Trade Unions, calling for a just transition for Irish households and workers affected by the planned closure of carbon-intensive peat-burning power stations in the Irish midlands. The group quotes the Sustainable Energy Authority of Ireland, which estimates that tackling the one million older Irish homes that need deep retrofit could add €35 billion to the Irish economy: “This represents a significant opportunity to improve health and well-being for the occupants, particularly the significant numbers suffering from energy poverty… as much as 28 per cent of households in 2015.” New housing, particularly the construction
GREEN STIMULUS
of well-designed, low energy social housing, also brings large social returns. When social housing is constructed, new tenants enjoy lower rents, better living conditions, and more security than the average tenant in the private rental sector – and far better than in temporary accommodation. Tenants and the community at large benefit, including economically, as research by HACT (the Housing Associations’ Charitable Trust) illustrates. People moving into social housing are likely to enjoy improved mental and physical health, to be better able to find and retain a job, they are less likely to be a victim of crime, and their children will be able to stay in the same school, benefiting their education, this research shows. How to finance a green rebuilding Funding energy saving work through utility bills, as has been done in the past ten years or so in the UK, is popular with governments because it is “off balance sheet” (i.e. kept out of the state’s own budget). But funding via energy bills is regressive. It hits the poorest hardest and has become politically unpopular as a result. An expanded, ambitious programme of the kind that is needed to meet carbon targets cannot realistically be imposed on bill payers, many of whom will see little or no financial return. Yet governments seem to have had a bit of a blind spot with regard to green construction. Regarding retrofit in particular, the case has repeatedly been made that deep retrofit should be seen as a national investment — it is effectively an infrastructure programme. And it works economically in those terms. Medium-to-long term, investment in green construction pays back amply to the state, many researchers have concluded. Verco and Cambridge Econometrics examined this for UK climate change think tank E3G in 2014, and calculated that a 15-year programme of deep energy retrofit would return £1.25 to the government per £1 invested, from the increased tax take resulting from job creation as well as from supply chain activity, increased household disposable income, and a lower state welfare bill. This positive rate of return makes government borrowing justifiable as an approach for funding energy efficient construction – in the same way that any national infrastructure investment is justified. For big infrastructure projects, governments generally like to leverage private sector finance, to increase the total size of the programme. Given that energy efficiency work improves the value of a property, property owners can be expected to contribute something, either at the time of the work, or at the moment of property sale. However, incentives are generally still required to overcome initial resistance, compensate for the costs of disruption, and also to ensure uniform, high standards of work. In Ireland, Paul Kenny of Tipperary
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Energy Agency, who runs the SuperHomes deep retrofit scheme, believes grants of 35% or so are necessary to catalyse homeowner investment. Tax incentives (for example stamp duty relief) are one way of managing this, as are direct cash contributions to the work. Another incentive, which could be complementary, is to offer subsidised lending. This can be organised as a rolling loan fund, which has worked well in pilot schemes in the UK in the past. Low cost finance is offered along with support to ensure the work carried out is properly designed and project managed. MEP Ciaran Cuffe suggests that in Ireland, the European Investment Bank could support something similar, and back a state guarantee for loan finance for deep retrofit. There is also the option of independent finance through the private sector. Energy retrofit is a market that is reportedly of growing interest to private investors who are seeking ‘green’ and future-proofed investments. Analysts are warning investors that oil stocks are no longer safe, as fossil fuels are increasingly identified as problematic – a trend that if anything is accelerating in the Covid crisis. Lending into future-proofed, low-carbon property is starting to appear attractive, though investors will however be anxious to see quality assurance of the work they are backing (this was one of the drivers for developing the UK retrofit quality protocol, PAS 2035). ‘Ethical’ investors are also being courted by the social housing sector. According to the Financial Times, a group of large housing associations, investors and financial experts is actively looking for ways it can raise money by quantifying what they do in terms of environmental and social performance, to attract so called ESG (environmental, social and governance) investment. One of the criticisms levelled at infrastructure investments like airports or high speed rail is that they do not always distribute benefits to the most in need. Construction work, as we have seen, is jobs-intensive, and wherever there are people, there are houses to retrofit and new houses to build. However, there are still concerns that to maximise community-wide benefits of any regeneration and retrofit programme, there also needs to be local control. The UK Green Building Council has proposed a couple of structures that could enable a national retrofit programme to be fine-tuned to suit each area, such as local authority funds and community social enterprises. Do as much as you can do well The calls to ‘green stimulus’ action emphasise the urgency of the Covid and climate crises, and the need for ramping up of action to match. The International Energy Agency, for example, at first glance seems to be promoting a gung-ho approach to green
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Above clockwise from top left: Irish Green Party MEP Ciaran Cuffe; Julie Hirigoyen of the UK Green Building Council; UK Committee on Climate Change chief executive Chris Stark.
energy and retrofit: “Early action can create jobs quickly by focusing on what is already in place and ready to be scaled up.” But they go on to warn: “Supply chains and capacity will be crucial. If new programmes quickly increase demand, can the market respond? Are good products available? Are installers ready to meet demand at sufficient levels of quality and safety?” Jonathan Atkinson, manager of the Manchester People-Powered Retrofit programme, fears they are not – and says that changes at many levels are needed. In a blog for the Centre for Alternative Technology he warned that the existing model for procuring energy efficiency work in the UK has led to a ‘race to the bottom’ in terms of costs and quality. “Poorly planned energy supplier-funded works delivered to unrealistic timescales by badly trained staff led to widespread damage, leaks, poor quality home environments and aggrieved residents.” As the IEA put it: “Governments in a hurry to generate activity can be tempted to lessen the focus on technical standards or required efficiency levels, but this can be a false economy in the longer term.” This is not a mistake we can afford to make. The UK’s new PAS 2035 retrofit standard represents a major step forward in assuring quality in retrofit. Requirements include design by appropriately qualified professionals, and an insistence on effective ventilation whenever there is a risk of inadequate air exchange. At national level though, it has not yet been formally adopted. In order to overcome the dangers of inadequate and even harmful installations, there is wide agreement that more and more appropriate training is urgently needed.
Even in the small pilot whole-house retrofit schemes currently being funded by the UK government, demand from homeowners risks outstripping the supply of suitably qualified advisors and installers. Manchester’s People-Powered Retrofit programme is one of these pilots, and Jonathan Atkinson is concerned. “There is a skills shortage that has to be addressed to enable safe and effective retrofit to be delivered. There is no point in ramping up funding for retrofit unless it can be delivered properly,” he writes. “Luckily there are great, practical training models out there that can be replicated. Investing in the people doing the work absolutely must go hand in hand with investing in the work itself, or we will be storing up all kinds of trouble.” In new build too, construction to genuinely low-energy standards requires particular skills and knowledge: one of the reasons passive house projects often show higher costs is because clients are effectively investing in skills training on behalf of the whole construction sector — the necessary skills and knowledge aren’t part of mainstream construction education and apprenticeships. Experience has shown that many construction workers adapt readily once the time and resources have been found for training, so there is a clear opportunity during a construction slow-down to support workers to remain in the industry and to gain the skills needed to “build back better”. One group who could be targeted are those same young people whose skills training and job prospects are most impacted by an economic crisis. The damage is already occurring: reportedly just 20% of UK
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apprenticeships due to start in April came to fruition. Research by the Resolution Foundation shows that remaining in education or training offers long term benefits to job market entrants, compared with trying to go straight into work in a depressed job market. The foundation has called for extra support to be put in place urgently, so young people can gain an extra six months of training – something many currently struggle to afford. The Green Party in Ireland has similarly called for the introduction of fast track apprenticeship programmes, to train the 20,000 workers its estimates are required to adequately retrofit the national housing stock. The programme for government that the party agreed with Fianna Fáil and Fine Gael, just as Passive House Plus went to print, contains a commitment to overhaul apprenticeships and training to ensure there is a skilled workforce for delivering mass retrofit. Politically popular? According to recent news reports, polling shows a clear majority of the population in each of the 14 major economies, from China and India, to Russia, the US and Brazil, thinks climate change is as serious as coronavirus. And in the UK, 70 per cent are in favour of accelerating climate action by moving the government’s zero-carbon target from 2050 to 2030. People are also questioning economic norms: polling has found a majority of the UK public, for example, wants ministers to focus on improving health and wellbeing over economic growth, even after the immediate threat from the coronavirus has passed. Nick Robins from the London School of Economics (LSE), one of the authors of the Smith School study, pointed out that after the global financial crisis of 2008 a massive proportion of ‘recovery’ investment was in his view misdirected into fossil fuel projects. In an interview, he told the BBC: “If we have any hope of combating climate change, we must make absolutely sure we do it better this time.” So often the argument is heard that we can’t afford to invest in more sustainable approaches to building and upgrading our homes, schools, shops and offices. It is becoming increasingly clear that we can’t afford not to – and that the world’s ordinary people understand this perfectly well. Failing ourselves, and young people in particular, on either a Covid rescue, or on climate rescue, would be unforgivable.
A fully referenced version of this article is online at www.passivehouseplus.ie
WILL EC ONOMIC GR OWTH SAVE U S? ‘Green stimulus’ or ‘green recovery’ generally has its goals framed in terms of boosting or restoring economic growth. Yet at the back of our minds, many of us are aware that the headlong striving for growth at all costs may be what has got us into the climate crisis in the first place. An exception to the ‘growth growth growth’ agenda is the city of Amsterdam. In the Covid recovery plan the city produced in April, its main goals, unusually, weren’t about growing the economy or increasing gross domestic product. Rather, they were about making the city better for people and the planet, in an analysis based on the principles of ‘doughnut economics’, a concept developed by the Oxford economist Kate Raworth. The doughnut envisages society flourishing in a sphere between a
basement of minimum, decent living standards for all and a ceiling of ecological limits (see diagram above). Instead of using the gross domestic product as the measure of society’s success, doughnut economics enables policymakers to visualise numerous dimensions of wellbeing – economic, health, social, environmental – on an equal basis. They can identify where there is a shortfall in basic needs for citizens, and where there is excess that is taking too much from the rest of the world, or threatening its future. “It gives us the opportunity to put those other values — like social interaction, health and solidarity — much more in the forefront of how we’re going to recover from this shared crisis,” Amsterdam’s deputy mayor Marieke van Doorninck explained.
Above Visual representation of the ‘doughnut economics’ concept, by economist Kate Raworth (CC BY-SA 4.0).
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WE CAN LAUNCH A NEW
ECO RENAISSANCE
The UN’s Scott Foster says deep retrofit of our building stock, and a sustainable built environment, should be at the heart of our recovery from the Covid-19 pandemic.
Words by Lenny Antonelli
S
cott Foster has a great green vision for our post Covid world. Over the past few years, Foster has made something of a name for himself as a global champion of passive and low energy buildings. Foster is director of the sustainable energy division at the United Nations Economic Commission for Europe (UNECE), which promotes economic co-operation between UN member states (UNECE includes the US, Canada, and the former soviet states, as well as Europe). Passive House Plus first spoke with Foster in February about retrofit, the carbon footprint of building materials, and more besides. We intended to run the piece in our spring issue but decided to delay its publication until summer. Then the Covid-19 outbreak became a global pandemic, and suddenly our original interview felt dated. So, in April we reached out to him again by email, to discuss how the global response to Covid-19 could be an ecological one. Foster pointed to anecdotes of how lockdowns had caused a dramatic reduction in pollution — “CNN reports that people in the northern Indian state of Punjab can now see the Himalayas, more than 100 miles away, because of reductions in air pollution,” he said — but he also stressed the pandemic had come at a devastating economic cost, and could lead to a dangerous deflationary cycle. “Plummeting demand for products at some point will lead to drops in prices. As
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that effect becomes generalized, an economy will move into a deflationary, self-reinforcing spiral as people delay purchases in anticipation of lower prices. The money multiplier of economic growth becomes a money divider as economies shrink – deflation is considered to be much worse than inflation because of the deep damage it can do.” He expressed hope that this effect would be temporary but added: “The implosion of the world’s economies is extraordinary, and as confinement continues the duration of deep repercussions becomes increasing unknowable. It is an urgent imperative to get the world’s economies back to work. Jobs, health, security, food, investments all depend on our getting back to work, though all the while ensuring that we do not relaunch the pandemic in the process.” What is needed, he said, is a global economic “renaissance plan” with green principles, and deep retrofit of buildings, at its heart. The Renaissance, which marked the transition from the Middle Ages to modernity, was associated with “great social change and strides forward intellectually and culturally”, arguably just what we need now to confront the climate and ecological emergencies. “If we simply re-launch economies by reverting to the model that existed before December 2019, then we are simply re-treading paths that take us to the wrong destination,” Foster said.
‘A holistic vision for the role of buildings’ While promoting energy efficiency in buildings is just one part of his job, it’s the one where Foster believes he can make the biggest difference. To underpin that belief, UNECE has developed ‘framework guidelines’ on energy efficiency in buildings, a set of common principles for UN nations to strive for. These advise limiting the space heating and cooling requirements in buildings to 25 kWh/m2 per year, and total energy use to 90 kWh/m2 annually. But in general the guidelines are aspirational rather than prescriptive: they say that building design and construction should be sciencebased, and that building performance should be subject to ongoing measurement. Buildings should also be affordable, be built using sustainable materials, and integrated with their surrounding environments. They should also have advanced, networked building information systems (you can read the principles in full at unece.org/energyefficiency) Speaking on the phone from Geneva in February, Foster said the guidelines “go way beyond what building standards do so far, in that they don’t deal with a house on a component by component basis, they deal with a building as an entire system, which is embedded in a community, which is its own system. Which is embedded in a city.” “This goes way beyond simply ‘passive house’. It creates a holistic vision of the role
INSIGHT
that buildings are going to play in a complex urban environment.” And he thinks these principles could be at heart of a post-Covid, or indeed intra-Covid, economic stimulus. Deep energy retrofit of buildings has been flagged as one of the effective ways to stimulate the economies post-Covid (for more see our feature on retrofit and stimulus elsewhere in this issue). Retrofit cuts carbon emissions, creates lots of jobs for every euro spent, and when done well, improves health and wellbeing for building occupants too. The challenge has always been how to make it happen at scale. Cheaper finance for low energy renovations is part of the solution, Foster believes, as is direct government funding — which will hopefully receive a boost via Covid stimulus packages. Another key step is getting property valuations to reflect the quality of buildings in a more holistic sense — including, for example, whether they are good or bad on occupant health. ‘Agents of change’ But we also need to change the way we pay for energy, he says. “If I move from paying for energy as a commodity to paying for energy as a service, instead of me sending you a bill for the number of kilowatt hours you’ve consumed, you and I enter into a subscription relationship, and you’re going to pay me to make sure the temperature in your house is 18C. You get the lighting you require, and air quality standards are met. My business model becomes one of looking at your entire dwelling as the complex system that it is and making needed investments to reduce my costs of delivering the energy services you require.” This approach, called energy service contracting, works well in theory, though in practice it has been hindered by tricky contracting issues — such as the fact the consumers cannot easily change energy supplier under such arrangements. But Foster believes the concept is essentially sound. He says we need to see energy suppliers, rather than property owners or tenants, as the “agents of change” to scale up retrofit. But we should also remember how important new build energy standards are going to be, especially in the global south. “If you think of a world with 9 billion people [as
The agents of change are at the city and local level. is predicted for 2050] and you imagine, as is expected, that 70% of those are going to live in cities … that is the equivalent of adding 235 new cities the size of Paris to the planet. So, when you look at the developing world, new building is extremely important to get right.” Cutting the embodied carbon of buildings is key too, and Fosters calls for methodical new ways of recovering materials from existing buildings to help avoid extraction of new raw materials in future. We should look at the built environment itself as a source of materials, he says. “So if you’re going to demolish a building or trash a car, or whatever the object is, there needs to be some way to track all of the components that went into it, either its batteries or copper or steel… some mechanism for using digital processes for keeping inventories of what materials have gone into what objects, so when you go to dispose of it, you know what’s there, and you know how to access it.” Pricing carbon But he says that carbon taxes are a key underlying mechanism to make all of this happen. “I am not talking about €20, €30 or €50 per tonne of carbon, I’m talking north of €120. So, it’s a big number if you want to have a serious effect.” Without a carbon tax, the only choice is to try to regulate the climate impacts of each individual material or sector. “I’m not convinced of the effectiveness of prescriptive regulations in a market as complex and diverse as the global supply chain for buildings.” In such a complex system, Foster says people working on the ground are most critical. To that end UNECE has developed its High Performance Buildings Initiative, partnering with New York, Pittsburgh, Vancouver, and Ireland to establish international centres of excellence in high performance building, to spread the good word at grassroots level among designers, tradespeople, and local decision makers.
SCOTT FOSTER
These centres will provide training in low-energy design and construction, share best practice, and work to build public support for high performance buildings. In Ireland, the Waterford Wexford Education & Training Board has opened an NZEB (nearly zero energy building) training facility in Enniscorthy. It runs courses in low energy building skills for trades, including carpenters, bricklayers, electricians, plasterers, and plumbers. “Wexford is a national initiative that is likely to have Ireland-wide effects, and we’re hoping to have Ireland then have an effect across the EU,” Foster says. “The agents of change are at the city and local level. Government policies are obviously very important — but I do find that it is critically important to talk to the people with the hammers in their hands, they’re the ones who are going to make things change.” Fosters believes pumping in money and support at this level is crucial to any retrofit stimulus. “Getting cash into the hands of the tradespeople – the carpenters, the plumbers, the contractors, the architects, and the rest of the building supply chain — would reinvigorate local economies rapidly while delivering on long-term quality of life for everyone (climate, affordability, health, comfort),” he wrote to us. ‘An existential threat’ Foster is unequivocal on the state of our planetary emergency. “The world is not on track for 1.5 degrees or 2 degrees [of warming]. Right now, we are barrelling down the highway for between 4 and 6 degrees and that is, as a species, the existential threat that we’re facing,” he says. “And by the way we’re screwing up life for a lot of other species in the process, too.” Facing this crisis will require global cooperation, and a recognition of our inter-dependence. Foster believes this has been lacking in our response to Covid-19. “If governments had been open and transparent about the challenges they faced and collaborated on the solutions, the now pandemic could have been contained better by staying at the personal transmission level and not a community transmission level. Had they shared experiences on what was working and what was not, they might have flattened curves much earlier on,” he wrote to us in April. “So, yes, I firmly believe that nations and states acting alone do not work as well as collaboration based on science and facts. Mutually beneficial interdependence requires trust, and that seems to have gone missing.” Trust, and co-operation will certainly need to be rebuilt, if Foster’s vision of a green global economic renaissance is to bear fruit. But his vision is still a vivid one. “We have an opportunity with this pandemic to catalyse a modern renaissance, a re-birth of nations and economies in a way that delivers quality of life sustainably at global scale.” Left Participants at an NZEB training course run by Waterford Wexford Education & Training Board, one of the latest UNECE centres of excellence for high performance buildings.
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GREEN STIMULUS
INSIGHT
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68 | passivehouseplus.ie | issue 34
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INSIGHT
COVID-19
DEAD AIR
IR BO RN E C OV I D-19 & P OORLY A VENTILATED BUILDI N G S
In the early stages of the Covid-19 crisis, there was little official recognition that airborne transmission was a risk. Has that view changed, and what role will building ventilation play when winter approaches?
Words by Jeff Colley
T
he World Health Organisation (WHO) has long maintained that Covid-19 is not airborne, but its position becomes less clear when subjected to scrutiny. On 28 March, the agency made strong assertions in posts on Facebook and Twitter: “FACT: #COVID19 is NOT airborne,” the WHO account tweeted. A WHO article published the next day was less unequivocal, stating that the virus was “primarily transmitted between people through respiratory droplets and contact routes”, while conceding that airborne spread “may be possible in specific circumstances and settings in which procedures or support treatments that generate aerosols are performed,” such as intubating a Covid patient. The article acknowledged that research existed indicating airborne spread, but cautioned that it had not yet been subject to peer review, and proposed no additional precautions about airborne spread. Passive House Plus contacted the WHO to ask, in light of the contradiction between its unequivocal Facebook and Twitter posts ruling out airborne Covid-19 on 28 March and its more nuanced position on 29 March, if it would unpublish the social media posts in question. The agency reiterated its position: “Covid-19 is primarily transmitted between people through respiratory droplets (for instance produced when a sick person coughs) and close contact with sick people or contaminated surfaces. These droplets are too heavy to hang in the air. They quickly fall on floors or surfaces. This is why WHO recommends that everyone continue to follow basic protective
measures against Covid-19.” “In health settings during certain procedures, it is possible for the virus to be airborne under some conditions. This is why WHO recommends precautions for health workers.” The WHO response referenced a WHO guidance document on preventing Covid transmission in healthcare settings. In a section on contact and droplet precautions, the guidance states that “patients should be placed in adequately ventilated single rooms. For general ward rooms with natural ventilation, adequate ventilation is considered to be 60 l/s [litres per second] per patient”. For airborne precaution rooms, the target is set at 160 l/s per patient. There is an apparent contradiction in the ventilation target for wards. If the WHO’s position is that Covid quickly falls on the floor or surfaces, and that one metre of distancing between beds is sufficient mitigation, then why specify a ventilation rate – and a high rate of 60/l/s/patient at that? Linsey Marr, the Charles P. Lunsford professor of civil and environmental engineering at Virginia Tech agrees. “Recommending improved ventilation in buildings implicitly acknowledges that airborne transmission is important. Otherwise, social distancing alone would stop transmission,” says Marr. In responding to Passive House Plus, the WHO revealed plans to imminently publish revised advice on ventilation as part of its Covid-19 infection prevention and control (IPC) guidance in healthcare settings, while also issuing a statement to the magazine on
airborne Covid-19. The statement, which is published in full on the Passive House Plus website, outlines the WHO position that there is no evidence of airborne transmission of Covid-19 outside of aerosol generating procedures, and that evidence of the virus in air samples did not demonstrate that the virus could be transmitted in this way. “So far there is no evidence of “transmission” of the virus as an airborne pathogen (such as TB),” the agency said. “This is different from finding the virus in air samples or showing that aerosol particles can be generated from bigger droplets when people cough, sneeze or talk loudly.” According to Prof Jose L Jimenez, a fellow at the Cooperative Institute for Research in Environmental Sciences, this statement reflects a very narrow, binary definition of “airborne”. “It is like measles or TB, or it is not airborne at all. Makes no sense,” he says. “Why are there only those two possibilities, what is that assumption based on?” Charles Haas, LD Betz professor of environmental engineering at Drexel University is equally vexed. “The dichotomy between ‘aerosol’ and ‘droplet’ is ancient and outmoded,” he says. “The problem with WHO is that initially they conveyed too much of a sense of certitude and they have had difficulty backing off.” The WHO statement argues that the virus reproduction number in various countries, “does not indicate a typically airborne pattern of transmission. The occurrence of airborne transmission would have resulted in many more cases and even more rapid spread.”
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GREEN STIMULUS
INSIGHT
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INSIGHT
Prof Jimenez calls this assertion “totally bogus”, adding that the reproduction rate “is not an indicator of aerosol transmission,” adding that Anthrax or hantavirus have a reproduction rate of zero, but are only transmitted via aerosols. Jimenez adds that unlike more efficient airborne diseases like measles and TB, Covid-19 is “opportunistic airborne”, and needs crowding, low ventilation rates and duration in order to spread. Shelly L Miller, professor of mechanical engineering at the University of Colorado Boulder argues that the WHO are “demanding much more rigorous proof of airborne transmission compared to surface/touch transmission. Where has it been definitively proven that contact with contaminated surfaces got people sick? Yes, we find the virus on surfaces but also in the air.” Replying to Passive House Plus in May, Prof Marr made a similar point: “I don’t think we can rule out airborne transmission of Covid19, especially in close contact situations and in spaces with poor ventilation for the number of people present,” said Marr. “In fact, there is mounting evidence that airborne transmission is occurring. There isn’t actually any direct proof of transmission by large droplets either.” The sense that the WHO and the medical community in general are not engaging sufficiently with aerosol scientists is palpable. The WHO told Passive House Plus it “convenes a group of more than 30 international experts in the fields of infectious diseases, epidemiology, public health and infection prevention and control” to regularly review the evidence. “The set of people at the table […] is narrow,” says Prof Haas. “Where are experts in engineering, ventilation, risk assessment? They have always had too narrow of a net that they cast for expertise.” If the emerging consensus among aerosol scientists is right, then airborne transmission of Covid-19 is a significant factor – in particular in crowded, poorly ventilated buildings. The issue, then, of how we ventilate our buildings comes into sharp relief. The aforementioned 60/l/s and 160/l/s per patient targets for hospital wards and airborne precaution rooms – expressed as minimum hourly averages – comes from a 2009 WHO document, titled ‘Natural ventilation for infection control in health-care settings’. It notes that this guidance, “only applies to new health-care facilities and major renovations,” an apparently implicit recognition that existing hospitals will have sub-optimal ventilation rates in airborne precaution rooms, and consequently higher risks of infection spread. The guidance also states: “The design must take into account fluctuations in ventilation rate”, and adds that “when natural ventilation alone cannot satisfy the recommended ventilation requirements, alternative ventilation systems, such as hybrid (mixed-mode) natural ventilation should be considered, and then if that is not enough, mechanical ventilation should be used.” Consulting ventilation engineer Mich Swainson points out that the ventilation rate
required to maintain good indoor air quality in non-domestic buildings is typically taken as a minimum of 10 l/s, as per UK building regulations, CIBSE Guide A, and the Department of Health document, ‘HTM 03-01 A’. However, HTM 03-01 notes that a general ward or single room should have an air change rate of six air changes per hour (ACH). “Relating 6 ACH to a dwelling, purge ventilation in a room is achieved by opening the windows, this aims to achieve a minimum of 4 ACH,” says Swainson. “Purge ventilation is deemed to be intermittent. The WHO and HTM 03-01 respectively indicate that a ventilation rate of 60 l/s/patient and 6 ACH is required, 24/7. Unless a natural ventilation system had been specifically designed to achieve such rates, in a single room this would require a significant window area to be open 24/7, and in a general ward could only be achieved with cross ventilation through large openings. In cool, windy or wet weather, the use of windows would be impractical to achieve such high flows, without significant impact on the thermal comfort of the occupants.” As Dr Chris Iddon, chair of the CIBSE natural ventilation group, explains, the ability to deliver high levels of natural ventilation through window openings in hospitals may be considerably reduced from the design intent by window restrictors installed to stop patients escaping. “Window replacement is also an issue,” he adds, “as the tendency is to focus on Part L rather than whether the windows can help achieve the flow rates under Part F.” Iddon warns that achieving higher ventilation rates may prove trickier in the coming months, given the tendency of occupants to close windows and vents during colder weather. “We’ll be coming to wintertime. We need to think about what amount of air we can reasonably deliver whilst not unduly increasing any transmission risk.” “If you’re in your household bubble I think you have to think less about ventilation than in a public building,” says Iddon, reasoning that surface spread and large droplets will already make virus transmission highly likely in households. Iddon is more concerned about public buildings. “A lot of those buildings are probably well ventilated, but a lot aren’t. I’m not surprised we’ve seen large viral transmission events in halls, given how high up and inaccessible the windows tend to be.” Iddon said CIBSE’s position has been to err on the side of caution, and try to maximise ventilation as much as reasonably possible, but to revisit this as we move in to autumn . “In a lot of circumstances where the ventilation is poorer than it should be, there seems to be an increased risk of infection,” he says. But can natural ventilation be relied upon to satisfy a specific ventilation requirement? Useful insight on this point can be found in a 2015 review of 168 academic papers published since the year 2000 on ventilation and health, and which subjected 48 of these to more detailed analysis. It found that higher ventilation rates were generally associated with reduced adverse health outcomes, and that acute health symptoms
COVID-19
tended to be lower in mechanically ventilated buildings. The picture on mechanical ventilation was mixed with regard to asthma and allergy symptoms, but the findings on natural ventilation bear repeating in full: “Ventilation rates in naturally ventilated buildings can only be characterized with a high level of uncertainty because they depend on outdoor conditions and activities and on the behaviour of building occupants. Instantaneous (spot) measurements or even weekly averages may not be able to capture and represent the true variability and may not be representative of actual rates. Consequently, exposures that are related to ventilation may not be properly estimated and may not reflect the actual exposures. They may simply be too low or too high compared with the actual levels.” Barring feats of ventilation engineering, it would appear misguided therefore to expect natural ventilation to reliably meet a minimum ventilation rate, except when backed up with the safeguard of mechanical systems in mixed mode designs. There’s also evidence that occupants tend to close or permanently block natural vents. A Scottish study of 40 naturally ventilated airtight homes found that 63% of vents in bedrooms and 63% of vents in living rooms were stated to be “closed and never opened”. Meanwhile, a 2010 study of natural ventilation in 22 airtight English homes found that 60% of vents were closed, while a 2005 BRE study of 37 homes found that trickle vents were fully open in only four of the study homes, and fully closed in 13 homes. The Scottish study, which was conducted from January to March 2014, calculated that the average per person overall ventilation rate was 3.1 litres per second per person and the range was from 0.9 l/s/p to 6.0 l/s/p. The BRE study involved monitoring ventilation rates in 37 naturally ventilated, leaky homes during winters and summers over two years. The measured air change rates were considerably lower in winter: 0.44 air changes per hour in winter, versus 0.62 air changes per hour in summer. The main reason given was increased opening of windows and trickle vents in summer months. Homes where windows were open ‘most or all of the time’ had significantly higher ventilation rates than other homes, both in winter and summer. House type was also an apparent factor: flats had lower ventilation rates than other house types. Bearing all of this in mind, there is reason to fear that the conditions will be ripe for the airborne spread of Covid-19 as winter approaches, due to people spending more time indoors and the near ubiquitous reliance on natural ventilation via background ventilators and window opening – ventilation strategies that many people are inclined not to use during winter. To view the CIBSE guidance on emerging from lockdown, including ventilation guidance, visit: www.cibse.org/coronavirus-covid-19/ emerging-from-lockdown.
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GREEN STIMULUS
INSIGHT
HOME HEATING CHOICES AND AIR QUALITY How we heat our homes has a direct impact on the quality of air that we breathe. This impacts on our health. The impact is both local and national. Burning solid fuel – in an open fireplace or stove – generates fine particle pollution which affects the air in our own home and in the local neighbourhood. There are choices and actions we can take that will reduce this pollution.
P
oor air quality has serious health implications both in the short-term (acute – temporary illnesses like headache, breathing difficulty or eye irritation) and the long-term (chronic – ongoing illnesses like asthma, reduced liver function or cardiovascular disease). In Ireland, one of the main contributors to poor air quality is the domestic burning of solid fuels (coal, peat and wood). This is the main source of fine particulate matter pollution in our air. Particulate matter is very small particles which can be solid or liquid. Particulate matter is usually referred to as PM with a number after it to show how small the particulate matter is. The EPA monitors two types of PM and compares levels to limit values in the CAFE (Clean Air for Europe) Directive and WHO
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guidelines. These are PM10 and PM2.5. PM10 means that the particulate matter is 10 microns or less in diameter, small enough so you could lay 10 of these particles across the width of an average human hair. PM2.5 signifies that it is particulate matter of 2.5 microns or less in diameter – you could lay 40 of these particles across the width of an average human hair. The smaller the particles, the further they can penetrate into our lungs and cross into the bloodstream, damaging our lungs, heart and other organs. Why is solid fuel burning so bad for air quality? As well as being very inefficient in terms of heat production, open fires are the worst offenders in terms of producing harmful air
pollution. Even burning solid fuel in stoves is an inefficient process. In fires and stoves, not all the solid fuel is fully burned. These unburnt particles leave the fireplace or stove by the chimney, or directly into the room they are heating. This causes both indoor and outdoor air pollution. The use of solid fuel for home heating is particularly problematic in or near towns and cities due to cumulative effects of multiple sources of the pollutant and the numbers of people exposed. For stoves and biomass boilers, the pollution emission levels can vary depending on the choice of stove/boiler, the quality of the installation, the choice and quality of fuel used, how well the stove/boiler is maintained and the way it is used. The Environmental Protection Agency (EPA) has developed an infographic
INSIGHT
outlining the ‘spectrum’ of heating options and fuel types. Any movement along the spectrum towards less smoky fuels and cleaner heating options will have a subsequent improvement on air quality. It is recognised that cleaner heating options are not available to everyone. And that those people who are in or at the risk of fuel poverty need to be financially supported to make a transition to healthier forms of heating over time.
Also, if we move towards the ‘best choice for air quality and health’ shown in the heating infographic, we will also reduce our emissions of greenhouse gases. Thus, dealing with our air quality issues will be better for our health, in the shorter term, and lead to long-term benefits for climate change. Many of the strategies that are outlined in the Government’s Climate Action Plan will have a beneficial outcome for air quality and health.
Passive homes There is also a clear link between the reduction in harmful air pollution and climate change. As we make our homes more energy efficient, we will need less energy to heat our homes. If that energy comes in the form of solid fuel burning, then any reduction in that energy demand will lead to less production of local particulate matter pollution and consequently less greenhouse gas formation. Improving our housing stock’s energy efficiency and moving to clean home heating choices will have the twin benefit of lowering emissions of the greenhouse gas carbon dioxide and improving air quality in Ireland.
Evidence of the impact of different heating options on air quality The EPA continually monitors air quality across Ireland and provides the air quality index for health and real-time results online at www.airquality.epa.ie. Results are updated hourly on the website, and people can log on at any time to check whether the current air quality is good, fair or poor. The towns of Longford and Bray can be used to highlight the impact that solid fuel use has on air quality. Bray has a ban on the sale and use of bituminous coal. It is also part of the gas network. In contrast, Longford has no ban on the sale and use of bituminous coal. It is also not connected to the gas network.
H O M E H E AT I N G
The graph shows the concentration of fine particulate matter (PM2.5) measured during the winter heating season (January to March and October to December) for the years 2013 – 2018 at Bray town, Longford town, and for comparison Marino in Dublin. This graph allows us to the see the discrepancy between the two locations and the impact that additional solid fuel use has on air quality. Although the air at all three locations at times does not meet the WHO air quality guideline, it is worse in the smaller town of Longford due to the increased use of solid fuel for home heating. This situation is reflected across many towns in Ireland where solid fuel burning is prominent. In conclusion Ultimately, the best way to reduce air pollution is to move to cleaner ways of heating our homes and reduce the need for heating through improved insulation. This will significantly reduce our particulate matter levels in ambient air in Ireland, leading to much improved health outcomes for people. This is particularly important for at-risk individuals, such as young children and those with breathing problems.
Above Graph showing particular matter (PM 2.5) in three Irish urban areas between 2013 and 2018. While there is a ban on the sale of bituminous coal in Marino and Bray, and both locations are on the national gas network, Longford has no such coal ban and is not on the gas network, so it relies more on solid fuel for home heating.
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INSIGHT
GREEN STIMULUS
RADON GAS. HOW TO TEST YOUR HOME
300
people get radon related lung cancer in Ireland each year
REFERENCE LEVELS
25
2nd
TIMES
biggest cause of lung cancer in Ireland. Smoking is the biggest
Smokers are 25 times more at risk than non-smokers
HOMES & SCHOOLS
WORKPLACES
200Bq/m3 300Bq/m3
160,000
Irish homes are estimated to have radon levels higher than 200Bq/m3 IT EAS’S
HOW TO TEST YOUR HOME Outside radon is diluted to very low levels
1
ORDER YOUR RADON DETECTORS
Visit radon.ie to find a list of registered radon test providers
2
Two small detectors will be posted to your home with instructions
3
& IT Y CHEA’S P
+
AFTER THREE MONTH’S TESTING PERIOD
4
Post the detectors back
5
Place one IN YOUR BEDROOM
You will then receive a REPORT that explains your results
Place the other IN YOUR LIVING ROOM
YOUR
RADON REPORT
IF THE TEST SHOWS THAT RADON LEVELS IN YOUR HOME ARE HIGH there are simple and inexpensive solutions available to reduce these levels
For further information, visit www.radon.ie or call 1800 300 600
July 74 |2019 passivehouseplus.ie | issue 34
PA S S I V E H O U S E +
MARKETPLACE
Marketplace News WHY SHADING IS A MAJOR HEALTH ISSUE IN OUR HOSPITALS
D
aylighting, overheating, glare and lack of natural, insect-free ventilation remain significant issues in UK hospitals and may be hampering the ability of patients to recover, and hospital staff to properly care for them, according to UK solar shading manufacturer Smartlouvre. Smartlouvre managing director Andrew Cooper said that many UK hospitals are prone to overheating and glare, which in turns leads to stuffy indoor environments that are sub-optimal for both patients and staff, as emphasised in latest CIBSE guidelines on ventilation. “In a healthcare environment the occupants need natural daylight and air more than ever,” he said. “A connection to the outdoors and having access to natural light helps patients heal faster, making for a shorter hospital stay, and in general, the therapeutic environment that is strived for.” But without proper shading, glazing that provides views and daylight can also cause overheating and glare, and discomfort for those inside. Cooper says these are often not considered during hospital design. “All too often they are disregarded, or at least deprioritised and found to be a problem after the building is occupied.” He pointed out that back in 2018, a UK heatwave saw NHS trusts bulk-buying mobile air-conditioning units, fans and bottled water as temperatures climbed to up to 40C inside wards. “This year is predicted to be the warmest year in UK history when we are also dealing with a global coronavirus pandemic, which makes clean natural ventilation essential,” he said. “So why isn’t solar shading prioritised? Or is it the cost of cooling? Or the effect on the environment of air conditioning? Ventilation is crucial, as CIBSE emphasise, especially whilst dealing with the pandemic, but so is heat and light control. Worse still, healthcare trusts that don’t have imminent budgets for new buildings are seeing their running costs rise, year after year, in order to manage temperatures in buildings built when these levels of temperatures weren’t even a consideration.” The UK Committee on Climate Change stated in a recent report that the types of hospital ward that are vulnerable to overheating currently make up 90% of the total stock (by floor area). A recent Cambridge University report found that some £17.5bn of upgrades could be needed to make UK hospitals resilient to the overheating through new shading measures and improved ventilation. “Overheating in hospitals is a serious issue.
The general design guidance for healthcare premises as defined by the Department of Health isn’t prescriptive when it comes to solar gain and glare. It simply states that it should be controlled and suggests examples of providing control being through louvres and blinds. Internal or external, it doesn’t say. Furthermore, it suggests that thermal comfort conditions are ‘issues to consider’. Where are the standards? The minimum heat gain and glare, the temperatures acceptable at any given point in the day? Recuperating patients require a lot of sleep, which is interrupted at just 26C, and that’s just the start. “And so, the management of heat and glare is left to shading solutions that at best, remove only some of the problems, or at worst, also remove the benefits of the glazing and the daylight.” “Internal blind systems remove visibility and a connection with the outside world and only protect the room from a minimal amount of heat gain. External shading systems do work but are expensive to install and maintain as well as reducing the quantity and quality of daylight and vision out. Even the most recent advances in glazing technology reduce the view out.” Smartlouvre’s MicroLouvre product consists of a fine bronze allow mesh, comprising 700 tiny ‘bris-soleil’ fins per metre of fabric, measuring only 1.5 mm in depth. It is installed on a frame external to any windows, allowing heat to accumulate on the surface of the metal and then dissipate to the outside before it reaches the window. “You stop the heat and light before it hits the glass, with a metal fabric, with micro fine louvres woven in to dissipate the sun’s heat and energy but not block natural daylight, natural ventilation or vision out,” Cooper said. “This solution works totally differently from traditional external and internal blinds, which reflect, distort and restrict vision and light.” “It doesn’t diffuse daylight, it provides all the benefits but not the negative impact of excessive heat gain and glare. The louvres are micro fine, and angled at a level to ensure optimum light in, and visibility out, whilst protecting the building occupants from the heat, glare and even external viewing in. It’s known as angular selective technology. Testing at Fraunhofer Germany has shown that MicroLouvre, retrofitted on to ordinary double glazing, outperforms even the best solar glasses.” MicroLouvre was recently studied as part of an exercise carried out by Richard Tibenham of Greenlite Energy Assessors to model different solar shading solutions for a
large new student accommodation building in the East Midlands. Tibenham’s model determined that without any solar shading, the building was likely to experience “moderate to severe” overheating issues, even without taking account of future climate change scenarios. He modelled MicroLouvre against two other solar control solutions, namely control glass and high-performance internal blinds. Of the three products, Tibenham concluded that Smartlouvre offered the “highest level of guarantee against overheating concerns over the medium-long term”. He concluded that the product offered a good glare reduction while allowing full daylight spectrum transmittance and a durable service life of 25 years plus, all while reducing overheating to the required target (CIBSE TM59). “MicroLouvre performs better than retrospectively applied solar control films in terms of light transmittance, summertime solar gain reductions and durability,” he wrote. He also stated that in the case of this new build student accommodation, however, it is the more costly option. On a retrofit project however, MicroLouvre would compare more favourably, because its cost would be compared with the need to fully replace existing glazing with a solar control option. Speaking to Passive House Plus, Smartlouvre’s technical product manager Joe Reynolds welcomed Greenlite’s analysis, and recognition of MicroLouvre’s performance. “Now we just need to quantify the effect of full-spectrum daylight, superior glare control and the other added benefits MicroLouvre provides,” he said. To find out more about Smartlouvre go to www.smartlouvre.com.
(above) MicroLouvre is designed to prevent glare and overheating while preserving daylight and maintaining views to the outside.
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PA S S I V E H O U S E +
Partel fire-rated membrane contributes to new hospital extensions L
eading low energy building product supplier Partel is currently involved in the construction of two rapid build hospital extensions in Limerick. On both projects, the company has supplied an external breather membrane that meets the building regulations in regard to the spread of fire. “The construction of a new public building demands the highest standards of both safety and durability. As part of the steel frame system structure, Partel EXOPERM MONO DURO 200, an advanced fire-rated membrane, was chosen and installed to address these challenges and also to provide a high level of fire safety,” said Partel’s Hugh Whiriskey. The external envelope is fitted with 8,000 square meters of EXOPERM MONO DURO 200, which has a fire rating of Class B-s1, d0 according to EN13501-1. Partel said that this UV stable, highly breathable membrane offers flame retardant performance combined with optimum airtightness for greater thermal efficiency, and long-term weather protection. Partel also supplied 2,000 metres of ECHOSeal non-combustible airtight tape for each extension, used to create permanent seals for the external membrane. The two 24-bed, single room, ensuite blocks are scheduled for completion in July 2020 at both the main University Hospital
Limerick (UHL) and at Croom Orthopaedic Hospital, Co Limerick. The two extensions are going ahead as part of the Irish government’s national action plan in response to Covid-19, and involve a rapid build steel frame system that facilitates an earlier start to construction work and a more streamlined process than would be
possible with traditional builds. To find out more about EXOPERM MONO DURO see www.partel.ie. •
(above) Partel EXOPERM MONO DURO 200 installed at the new University Hospital Limerick extension.
Xtratherm secures EPD for Thin-R boards
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eading insulation manufacturer Xtratherm has become the latest company to receive an environmental product declaration (EPD) under the Irish EPD programme. Xtratherm’s EPD is for its Thin-R range of PIR insulation boards, and the declaration covers Thin-R boards ranging in thickness from 25 mm to 150 mm. EPDs are an increasingly important way for manufacturers to provide standardised data on the environmental impact of their products across a range of different parameters, including global warming potential, acidification, eutrophication and ozone depletion. They are designed to eliminate false and misleading claims about the environmental performance of materials by providing independently certified data. Building materials are assessed according to EN 15804, a standardised method for evaluating the environmental impact of construction products. There is growing focus in the industry
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now not just on the energy efficiency of buildings, but on the wider environmental impact of the materials used in them. Speaking to Passive House Plus, Peter Seymour of EcoReview, the consultancy that produced the EPD for Xtratherm, said Irish manufacturers were starting to see the benefits of having EPDs among their range of environmental certifications. “EPDs are now the preferred choice for specification on projects using BREEAM, LEED, and the IGBC’s Home Performance Index,” he said. “It is also a sure thing that the incoming government will put a major focus on the embodied carbon and energy of the built environment, and that EPDs will become the essential vehicle to communicate this data.” Meanwhile Danny Kearney, Xtratherm’s director of technical sales and marketing, commented: “Xtratherm is committed to reducing the environmental impact of our products and we’ve seen the benefits of EPD certification since back in 2018 when we were one of the first companies to
certify. Now more than ever, environmentally conscious customers are demanding transparency in build materials, and we’re happy to be able to provide assurance across the entire production process from raw materials all the way to dispatch.” •
(above) Xtratherm’s Thin-R range of insulation boards has just received EPD certification.
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NEW GOVERNMENT MUST SUPPORT HOME WORKING — LIDAN DESIGNS
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Glavloc awarded Agrément certificate
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oscommon-based modular offsite building manufacturer Lidan Designs has called on the next government to introduce effective financial incentives for companies to provide home office facilities to their employees. Speaking to Passive House Plus, company co-founder Dan O’Brien said the current trend of people working from home during Covid-19 was likely to remain in the long-term. “In the coming years, the demand for quality home office facilities, already growing pre- Covid-19, will grow exponentially. Lidan has already seen a big upturn in such orders recently,” he said. “Incentivising companies to provide their employees with physically separate, quality office facilities would help to ensure more people could work from home and work more effectively.” “Large multinationals have been aware for years that when their staff work from home, whether a few days a week or full-time, that they are more productive. We looked at the research into home working many years ago, and even then, there was significant research outlining the many advantages of home working. This includes commuting times, reduction in travel costs, time flexibility and a definable reduction in personal stress. For employers this means fewer sick days and increased productivity. Companies have also been able to revisit their need for expensive city office space.” “This is all before the significant benefits to the environment are factored in – less cars on the road and less emissions, and less pressure on already stretched public transport services.” But O’Brien says one of the big issues with home working is the increased time people spend checking devices outside normal working hours. The risks of being ‘always on’ are significant, as employee
wellbeing and productivity can be affected. “You need to be able to separate your home living environment from your work environment and essentially close the door and finish work at the end of the day.” Before co-founding Lidan Designs, O’Brien did a significant amount of home working as a management consultant for Accenture. It was his own quest for a garden office that led to the gestation of Lidan. “While I had plenty of space in my house for an office, I needed to physically separate my work environment from my living environment. When I looked at the office solutions available, I thought to myself these can be done better. So, Liam Casey and I founded Lidan and set about designing and building home offices.” The company’s timber frame home and offices meet nearly zero building (NZEB) standards, are BER A-rated, and can deliver passive house levels of airtightness. “In addition, we wanted to build them modularly and bespoke with a range of optional finishes. Ninety per cent of our units are now fully finished in our factory in Roscommon, transported to site and installed – effectively a ‘plug and play’ solution for the customer.” O’Brien called for the next government to incentivise companies to provide such facilities to their employees. “Another big advantage is that home working would be a game changer in terms of repopulating rural areas and revitalising rural Ireland.” Lidan manufactures offsite homes, offices, schools and other buildings from its factory in Roscommon town. For more see www.lidandesigns.com. The company’s clients, in addition to private customers, include OPW heritage sites, Bus Eireann, Dun Laoghaire-Rathdown County Council, the Department of Education and many others. •
(above) A low energy, offsite timber frame home office built by Roscommon-based Lidan Designs.
lavloc Building Technology has been awarded NSAI Agrément certification for their award-winning, high performance offsite building system. Glavloc said the certification was the result of several years of research and testing in leading test centres in the UK and Ireland. Products with an Agrément certificate must have demonstrated that they meet stringent requirements set by the National Standards Authority of Ireland, giving confidence to specifiers and designers of the quality, suitability and longevity of these products. Glavloc said that its products, “substantially exceed the requirements set out in both Irish and relevant European regulations and are NZEB compliant”. Currently Glavloc is the only timber frame company in Ireland to have Agrément certification from the NSAI. Details of the certification, number 19/0417, can be found at www.nsai.ie. Glavloc said that its structural timber frames are “one of the most advanced and environmentally friendly building technologies currently available in the market today”. The company operates nationwide. For further information please see www.glavloc.com. •
(above) The NSAI Agrément certified Glavloc system being erected at an NZEB house in Dublin.
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Aereco joins Daikin launches new Renovate Europe CPD webinars campaign D
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eading ventilation manufacturer Aereco has become the latest company to join the Renovate Europe campaign, which seeks to reduce the energy demand of the EU’s building stock by 80% by 2050 through deep retrofit measures. Renovate Europe says that “renovation is a key tool in the fight against climate change, and will deliver major benefits for people, their quality of life, and the economy.” The campaign is supported by more than 120 companies and organisations from across Europe, including the likes of Daikin, Kingspan, Knauf, Saint-Gobain, Velux, and the World Green Building Council. A statement from Aereco said: “We are now engaged with more than 120 European construction actors to expand the renovation operations within the framework of the EU Green Deal project, an initiative that will address the challenge of restarting our economy while delivering a positive and short-term transformational impact on our environment and society.” Just before Passive House Plus went to print, the European Commission opened a public consultation on its proposed ‘renovation wave’ initiative to boost the rate and quality of retrofit, a key part of the proposed European Green Deal. Renovate Europe is an initiative of EuroAce, the European Alliance of Companies for Energy Efficiency in Buildings. For more see www.renovate-europe.eu. •
aikin Ireland is running a new regular series of online CPD webinars to enable remote learning during the Covid-19 pandemic. “Many of us are finding ourselves in the unfamiliar position of working remotely with little or no face to face interaction,” a statement from Daikin Ireland read. “Although this is indeed a strange situation, Daikin Ireland aims to provide our customers with the best service possible under difficult circumstances.” “Education and training has been a major focus for Daikin Ireland this year and we are hoping to continue that through this difficult time. It is our intention to offer live virtual webinars and private presentations on our CPD courses.” CPD webinars to date have looked at topics including variable refrigerant volume (VRV) and heat recovery, NZEB for dwellings, and air-to-water heat pumps. There have also been specialist webinars on Daikin technologies including its Madoka wireless Bluetooth controller, its BTSCi monitoring tool for finding faults and repairs, and on the installation, commissioning and servicing of its Altherma 3 heat pumps. “The goal of these presentations is that the topics that will be addressed are not only educational but also interesting and relevant. Where required we can provide attendance certificates which contribute towards our customers’ required CPD portfolio.” Courses are facilitated using the Zoom software. Sessions run for roughly an hour with a Q&A included, and each is limited to a maximum of ten participants. To find out the latest course topics and dates email training@daikin.ie or check @DaikinIreland on Twitter. •
Ecocel insulation has tiny carbon footprint, EPD reveals C
ork-based insulation manufacturer Ecocel has published an environmental product declaration (EPD) for its cellulose insulation which reveals the product has a remarkably low carbon footprint. Figures derived from the assessment reveal the product has a carbon footprint in the order of just 0.3 kg of CO2 per kg of product. Ecocel insulation is manufactured in Cork using recycled newspaper. “We’re delighted to have received this EPD, which provides independent verification of the low carbon footprint of Ecocel,” the company’s John Egan told Passive House Plus. EPDs are a standardised way of reporting on the environmental impact of construction products, so that architects and specifiers have a clear way of comparing one material with another. They report on environmental impact across a variety of categories
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including global warming potential, ozone depletion, acidification and eutrophication. Ecocel also recently received an updated NSAI Agrément certificate for its insulation. The updated certificate lists the thermal densities of the material while also outlining how it can be used to safely insulate stone walls internally. “Ecocel insulation by its nature allows for the movement of moisture through the material. This means that it is more suited to being used against old stone wall structures, where managing condensation and moisture risks are particularly important,” Egan said. To read both the EPD and the updated Agrément cert, visit www.ecocel.ie/ technical-specifications. •
(right) Ecocel’s new EPD reveals that it has a remarkably low carbon footprint.
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MARKETPLACE
GRANT OFFERS FREE HOME HEATING SYSTEM DESIGN
Grant Engineering’s Areona3 R32 10kW heat pump. The company is now offering a free home heating system design service.
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eading heating technology manufacturer Grant is providing those undertaking new build and retrofit projects with the opportunity to have their home heating system designed free of charge. As part of the offering, the technical specialists at Grant will ensure that all required compliance for the heating system is met to achieve NZEB standards. Barry Gorman, Grant’s national renewable sales manager, outlined details of the service and the process involved, saying: “Our free of charge home heating design service enables those working on self-build and retrofit projects to have the property’s full heating requirements designed, specified and supplied under one roof. “The service has received significant interest as it not only saves time on the project, but also gives peace of mind to the property owner and those working on the project, from knowing that the exact heating requirements of the property are being met. Our technical specialists also ensure that the property is prepared for the journey to zero carbon and to deliver maximum comfort, coupled with long-term savings on heating bills. “On assessment of new build or retrofit house plans, the initial stage of our process
includes full room-by-room heat loss calculations based on SR:50 guidelines, to ensure compliance with Part L building regulations and ensure NZEB standards are met. “This is followed by the specification of correctly sized heating technologies based on the heat load for each individual room. Our specifications include the sizing of the main heat source required for the property and the identification of appropriate supporting technologies and modern heat emitters. All heating technologies specified are from our diverse product portfolio which represents the future of heating technology. “It is this technical insight and careful combination of heating technologies and smart controls which ensures that the heating solution is bespoke to the property, bringing it into a new class of efficiency. “In addition to designing an innovative, smart heating system, our team will also work alongside your specifier and BER assessor to ensure from a heating perspective that requirements for energy performance coefficient (EPC), carbon performance coefficient (CPC) and building energy rating (BER) certification are met. “Our wide range of heating technologies are all designed to work together which
gives added reassurance to those working on the project. The most popular technologies featured within our multiple package solutions offering include the A+++ Aerona3 R32 air source heat pump, A-rated pre-plumbed hot water cylinders, and a range of modern heat emitters including the Uflex underfloor heating system and the Afinia aluminium and Solo fan convector radiator ranges,” Gorman concluded. With over 40 years’ experience in the heating industry, Grant Engineering said it has developed an “enviable portfolio of innovative heating products that offer self-builders and those within the industry a one-stop solution to achieving a comfortable, sustainable and cost-effective way to heat homes”. To avail of Grant’s free of charge home heating design service, send your planning drawings, a contact phone number and your preference for heat emitters to heatpump@ grantengineering.ie. A member of the Grant team will then get in touch to discuss your requirements in more detail. You will receive full property specifications with recommended products all available from Grant. Visit www.grant.eu for more information on Grant’s range of innovative heating solutions. •
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Early adopters of the sustainable agenda, Cosgrave Group have led the way with multi‐award winning developments such as Early adopters&ofCualanor the sustainable agenda, Cosgrave Group Ireland’s have led rst the large way with winningatdevelopments such as Honeypark in Dún Laoghaire, while delivering scalemulti‐award NZEB development Bridgeeld in Santry, Honeypark & Cualanor in Dún Laoghaire, while delivering Ireland’s rst large scale NZEB development at Bridgeeld in Santry, a development that also received recognition for becoming the rst Irish residential scheme to receive a Wired‐Score rating. a development that also received recognition for becoming the rst Irish residential scheme to receive a Wired‐Score rating.
Cosgrave Group has ‘green credentials that go far beyond a good energy rating’ Cosgrave Group has ‘green credentials that go far beyond a good energy rating’ Passive House Magazine Issue 31 Passive House Magazine Issue 31
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80 Winner | passivehouseplus.ie | issue 34 2013 Winner 2016
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MARKETPLACE
ECOLOGICAL LAUNCH NEW WEBSITE AND ONLINE TRAINING
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cological Building Systems have announced the launch of a new website, aiming to support professionals and homeowners alike to achieve better results from their next project. The new site adds e-commerce functionality, enabling online ordering of Ecological’s range of sustainable and energy-efficient building products. As well as providing in-depth technical specifications, datasheets and certifications, the site includes a wide range of visual installation guides, project
examples and hands-on product advice aimed at making sustainable building methods more accessible. It includes an advanced recommendation engine to help users quickly identify complementary products and accessories to fit their needs, plus live chat to provide personalised advice where needed. For industry professionals, the website also houses information on Ecological’s range of training and CPD events. While these are usually hosted in Ecological’s on-site training centres in Carlisle in the
UK and Athboy in Ireland, the training offering has recently been expanded to include new virtual webinars and online events in light of the Covid-19 crisis. Penny Randell, UK general manager and director at Ecological Building Systems, said: “At Ecological, we’ve always felt that providing education and support is just as important as selling the products themselves, if not more so. Finding not only the right products but the right accessories and tools for a particular application isn’t always easy, and even then, correct installation can make or break a project. “Our new website is a one-stop shop to help anybody planning a sustainable building project to source the right products for the job, and access information and advice to get the best possible results. We’re delighted to be able to bring so much of our team’s collective expertise online for the first time – it’s the next best thing to having them at your desk.” The Irish division of Ecological Building Systems is in Athboy, County Meath where the company was established in 2000, while the UK division is near Carlisle, Cumbria. Full information on their range of products and services is available on the new website at www.ecologicalbuildingsystems.com. • (above) The new Ecological Building Systems website.
Learn about wastewater heat recovery remotely L eading wastewater heat recovery (WWHR) supplier Showersave has moved its certified CPD presentation, ‘An introduction to wastewater heat recovery’, online due to the Covid-19 pandemic. “Since the Covid-19 pandemic put an abrupt halt to normal business operations, Showersave devised a plan that would ensure construction industry professionals would continue to develop their knowledge of low carbon technologies while also gaining CPD credits,” Showersave’s Tony Gordon told Passive House Plus. The certified CPD is normally delivered in person at client offices, however, government restrictions have prohibited this over the past few months. Having researched the most effective means of delivering the CPD to employees working remotely, Showersave is now presenting daily to architects, M&E consultants and other industry professionals using video conferencing facilities. This
allows presentations to be visible to all participants, who are free to ask questions throughout the session. Upon completion of the CPD, all participants receive a certification of attendance by email. The CPD provides delegates with an overview of WWHR technologies in both residential and commercial environments. It covers key aspects of WWHR and how it can best be applied to a broad range of projects. WWHR recovery is increasingly used in both residential and commercial developments. Such systems are now recognised in SAP, SBEM and DEAP 4, and can contribute towards compliance with Part L of the building regulations in both Ireland and the UK. WWHR is also recognised under the EU’s Renewable Energy Directive as a renewable energy system. To find more about Showersave or to book a CPD presentation, contact sales@showersave.com. •
(above) The Showersave wastewater heat recovery system.
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VENTHEAT - PICHLER PHI CERTIFIED DOMESTIC AND COMMERICAL HRV SYSTEMS IN A RANGE OF CAPACITIES FROM 30-5550 m³/h To find out more visit WWW.VENTHEAT.IE 82 | passivehouseplus.ie | issue 34
E: mail@VentHeat.ie
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Saint-Gobain launches new online training academy
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aint-Gobain Technical Academy has announced the launch of its new online technical academy, which the company said will “continue its commitment to equipping building professionals with key knowledge about the sustainable building agenda as well as the vital skills needed to deliver it”. The free to attend online webinars are hosted by the Technical Academy training manager Jason Horrex and training instructor David Brady, with both theory and practical sessions. The webinars cover topics such as energy efficiency, fire, and sound control in buildings, and vary from 60 to 90 minutes in length. Since the launch of the new online academy in June over 700 people across Ireland have registered to attend, and Saint-Gobain said there had been great success across the five webinars that are currently available: An Introduction to NZEB; A brief but detailed look at airtightness; Installing compliant fire-resistant Gyproc partitions; What does it take to achieve peace and quiet?; and Papering over the cracks: tape and jointing
with Gyproc paper joint tape. Saint-Gobain Technical Academy will continue to develop online content and new titles will be available in the coming months. There will also be a focus on expanding the introductory webinars to half and full day online training tutorials. Saint-Gobain Technical Academy first opened its doors in May 2010 and over the past ten years has provided training to over 10,000 industry professionals, including contractors, builders’ merchants and architects, as well as new recruits to the industry. With two locations in Kingscourt, Co Cavan and Dublin, which house facilities for both theory and practical courses, the academy has been a one-stop shop for industry training. It has been designed to help combat the industry’s skills shortage and provide training on new technologies and systems, as well as up-to-date information around legislation. Saint-Gobain said its new online academy “aims to continue to meet the demands of the industry in this unprecedented time”. For more information on the company’s
online training titles or to sign up, visit www.saint-gobain.ie/technical-academy/ courses-cpds. •
(above) Saint-Gobain Technical Academy training manager Jason Horrex delivering the company’s NZEB webinar.
Earth Cycle expands into PH education & training
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eading passive house expert Robert (Bob) Ryan is now offering certification, consultancy and training once again through his company, Earth Cycle Technologies, after a year-long career break. Ryan, a technician from Wicklow who worked for over ten years for MosArt and the Passive House Academy, is now in the fourth year of managing his own practice and has major plans to expand and develop his young company. Earth Cycle Technologies has already developed an online course in thermal bridging for passive house projects. “This will be the first of many courses to stimulate and make accessible the role of designers and consultants working on passive house projects,” he said. Ryan told Passive House Plus that he also has plans to develop online courses in DesignPH 2, how to file a passive house project for certification, and complying with thermal bridging requirements in Part L. The company also plans to provide acceptable construction detail (ACD)
packs for passive house and Part L compliant projects, as well as animated flipbooks and Kindle manuals for building thermal bridge free and airtight details. He said that Earth Cycle also intends to provide video content on overlooked topics such as overheating, area-tovolume ratio (form factor), ducting accommodation and centralised design principles, and the affect all of these will have on the cost of a project. “Lastly, we are generating prototype designs for passive houses which can be obtained for any orientation and site,” he said. Ryan started in construction management, working on a number of small-scale residential projects before returning to education to become a technician. He went on to work with Tomas O’Leary at MosArt and the Passive House Academy, obtaining a Level 9 CPD diploma in thermal modelling and passive house consultant qualifications. After leaving MosArt in 2015, he applied to the Passive House Institute to become
a certifier. Since then he has certified over 20 passive house projects, with many more in progress. For more information see www.earthcycle.co. •
(above) Leading passive house certifier Robert Ryan of Earth Cycle Technologies.
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PA S S I V E H O U S E +
PROTECT MEMBRANES chosen for first multi-storey Passivhaus building in Scotland P
rotect BarriAir and VC Foil Ultra, the air and vapour control layers from Protect Membranes, have been specified and installed by design and build contractors Stewart & Shields in Scotland’s first multi-storey Passivhaus building, providing social housing apartments for Shettleston Housing Association. Used as part of a conversion project at Old Carntyne Church in Glasgow, the construction involved mixing traditional construction with new, with the church structure being restored alongside a new-build extension which was built offsite. Renamed Cunningham House, the development is one of Scotland’s most energy-efficient affordable housing developments and the city’s largest Passivhaus development to date, winning the Best Affordable Housing Development (Urban) category at the 2019 Inside Housing Development Awards. Working with Page Park Architects for the main project design and John Gilbert Architects for the Passivhaus element, Stewart & Shields delivered 19 apartments. Fourteen of these were conventionally built flats within the existing church structure, with the remaining five units being constructed within the new-build timber frame five-storey extension which was built to full Passivhaus Standard and is independently certified by the Passive House Institute. Derek McIlreavy, business development and design manager at Stewart & Shields Ltd, commented: “The specification of materials for this development was based on the need for a high-quality end result to meet strict Passivhaus criteria. We knew that Protect BarriAir and VC Foil Ultra would be up to the job in terms of airtightness to help us achieve the critical results needed to be independently certified. We had to beat 0.6 ach-1 @50Pa for airtightness and our tests showed a result of 0.33, which overall gave an added value solution to our client that helps to future proof these homes going forward.” Protect’s BarriAir and VC Foil Ultra membranes form part of a comprehensive range of wall, ceiling and floor construction membranes alongside roofing underlays and accessories which are ideal for traditional and offsite construction, to help ensure the whole building envelope and internal structure can be controlled in terms of moisture management, condensation control and thermal resistance. •
For more information visit www.protectmembranes.com, email info@protectmembranes.com or call +44 (0)161 905 5700, quoting ‘Cunningham House.’
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PA S S I V E H O U S E +
MARKETPLACE
ICF fast & reliable for social housing — Amvic Ireland Passive Sills cut thermal bridging & mould risk — new analysis
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deep retrofit project in Lancaster has achieved possibly the best ever airtightness result in the UK for a retrofit project. Designed by leading passive house architect Mark Siddall, Shepherd’s Barn is a super insulated, low energy barn conversion which incorporates high standards of airtightness and an MVHR system. A thermal bridging analysis of Passive Sills’s insulated window sills has revealed how they can significantly reduce thermal bridging at this crucial junction. The analysis, performed by Wain Morehead Architects, concluded: “The Passive Sills product significantly reduces thermal bridging at window sills and can reduce heat loss through the junction by up to 63% when compared with a traditional concrete sill built in accordance with the Acceptable Construction Details.” It also found that, compared to an ill-fitted concrete sill, where the continuity of insulation is not maintained, the Passive Sill would reduce heat flow through the junction by 97%. Wain Morehead’s analysis concluded: “The Passive Sill ensures that internal surface temperatures (fRsi or temperature factor) remain well above the threshold value of 0.75, set out in Appendix D of Technical Guidance Document L. “The Passive Sill ensures the temperature factor remains above the threshold value of 0.75 even when assessed to the more onerous standard of DIN 4108, which considers areas that are particularly susceptible to mould growth and condensation risk due to reduced air flow such as areas behind furniture and curtains.” Commenting on the analysis, Patrick Beausang of Passive Sills said: “What’s the point of putting lots of insulation in your walls, roof and floor if you are going to have a point of heat loss at your window sill. “The more that we insulate buildings, the more we accentuate thermal bridges at critical junctions such as window sills. And especially if traditional concrete or stone sills are poorly installed, these can then become focal points for condensation and mould in future. Passive Sills eliminate that risk.” Passive Sills manufacture window sills and other mouldings from polystyrene in their Cork factory. For more information see www.passivesills.com. • (above) Thermal modeling from Wain Morehead Architects comparing the psi and fRsi values of a cavity wall with insulated Passive Sill versus a cavity wall with concrete sill lacking continuous insulation (indicating poor quality installation).
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he inherent qualities of Amvic insulated concrete formwork (ICF) make it ideal for meeting the demands of local authorities and housing associations for fast build times and reliable delivery programmes, according to leading supplier Amvic Ireland. “We’re currently in the process of supplying rapid-build ICF social housing to a number of local authorities and housing associations at various sites around the country, and we have a strong pipeline of enquiries for new social housing projects as well,” Pat Martin of Amvic Ireland told Passive House Plus. “Compared to other build methods Amvic ICF is inherently able to deliver fast build programmes to deadline.” “For a start, lead times are minimal as we supply standard products ex stock, from our factory in Dublin. In addition, we can complete our programmes with a minimum of wet trades. This combined with the inherent weather resistance of the Amvic ICF system assists in achieving programme certainty.” “ICF also offers very fast drying times, if conditions on site have been wet, compared to traditional concrete block and timber frame. So, due to its inherent water resistance, lack of wet trades on site and very low moisture absorbance, we can deliver rapid build times of eight to ten weeks from breaking ground to completion, providing speed and certainty to social housing providers at the time of a national housing crisis.” Pat Martin also emphasised the inherent airtight and thermal bridge free nature of ICF construction as being ideal for meeting Part L and NZEB. For more information see www.amvicireland.com. •
(above) The Amvic ICF system, seen here on a new one-off house under construction (top and bottom right). Amvic ICF was also used for this new scheme of semi-detatched dwellings (bottom left).
ph+ | marketplace | 85
T O BY C A M B R AY
COLUMN
The science of filters How do ventilation filters work, and can they help to protect us against Covid-19? Toby Cambray weighs in on the physics of a subject that is more complex and interesting than you might expect.
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f you’ve never given it a great deal of thought you’d be forgiven for thinking that filters are very important when it comes to how our buildings can help or hinder the effort against the current pandemic. I certainly did! It turns out (at least in relation to domestic MVHR) that unless you have several infectious people coughing into the intake grille, a filter in your typical domestic MVHR system is not going to do much to protect you from Covid-19 (though it can’t hurt). But filtration is still important, as well as complicated and perhaps interesting… There is more to how filters work than meets the eye; they aren’t simply sieves with tiny holes, although that’s one mechanism by which they work. If you look at them under a microscope, the holes in most filter media (or gaps between their fibres) are bigger than much of what they are intended to catch. Crucially, proper filter media are manufactured with an electrostatic charge applied, so particles tend to stick to the fibres if they get close enough. Above about 0.2 microns, particles tend to travel in straight lines, and in the same way you can’t see through a filter because
microns, which are larger than the MPPS, and more likely to get stopped by a filter. So how good are the different grades of filters at catching these various particles? The answer to this question can be found in the boring-but-important standards on the subject. Anyone who has specified or designed MVHR for a passive house ought to know that the level of filtration required on the intake is F7 (or better). Here, F means fine, as opposed to M for medium and G for coarse (sic), and F7 must on average remove 80 to 90% of particles in the 0.4 micron size. G4 is the standard spec for domestic filters, and what you get if you don’t specify a grade. These are therefore typical in non-passive house applications. However, G filters have an efficiency of less than 40% with respect to 0.4 micron particles, so clearly can’t be relied upon to remove the finer particles that are bad for our health. To be clear, G filters are only really intended to protect equipment from larger particles which could damage fan blades etc. Also, it’s common in commercial buildings to cascade filters, so the incoming air is passed through more than one filter,
but they are generally comparable and should yield better performance because the new test looks at a broader spectrum of particle size. There is a huge amount to this topic and I’ve barely scratched the surface here. Pressure drop is a very important aspect for example, and one reason to avoid over-specification of filters. I started out on this column thinking I’d mug up a bit on filters and write something about the importance of filters in combatting the current pandemic. Instead, I found myself going down a rabbit hole with less relevance to protection against Covid-19 but learning a lot along the way. I can only hope that someone else out there finds this useful, interesting or both! n
It makes sense to have one filter for Covid, and another one for Corvids.
the light hits one or more fibres, a particle travelling in a straight line will simply collide with a fibre. Below about 0.1 microns, a particle starts to behave more like a gas molecule, darting around according to Brownian motion. Once within the filter, all that darting around tends to make it bump into the charged fibres. The cumulative effect of these mechanisms gives an efficiency curve with a dip at about 0.1 to 0.2 microns; this size is therefore known as the ‘most penetrating particle size’ (MPPS) and is used to benchmark filters. It turns out that a Covid-19 virus has a size almost exactly the same as the MPPS, which is bad because it means a virus is the optimum size to penetrate a filter. On the other hand, viruses generally escape the body suspended in droplets of 0.5 to 10
86 | passivehouseplus.ie | issue 34
starting coarse and becoming more fine. This helps the fine filters focus on what they are best at, leaving the job of catching flies, leaves and dead birds to less costly filters. It makes sense to have one filter for Covid, and another one for Corvids. It’s also worth pointing out that the standard setting out the G, M, and F classifications (BS EN 779) has been superseded by one that is more fit for purpose. As usual with changes in standards, it takes time for updates to become widely adopted in practice. Brave souls might summon the energy to wade through the 164 pages that make up BS EN 16890, but failing that, you might consider swapping F7 for ePM1 60% and G4 for Coarse 70% in your documentation. The categories are not directly equivalent because the test method is different,
Toby Cambray is a founding director at Greengauge and leads the building physics team. He is an engineer intrigued by how buildings work and how they fail, and uses a variety of methods to understand these processes.
Support where and when you need us Xtratherm have updated our resources and technologies to support you in your own changing working situation, to continue to provide the service you can rely on. We are all getting used to communicating online, particularly in the areas of technical support and CPD delivery.
Topics include: — Achieving NZEB — NZEB and Passive - where are we? — It’s all in the detail - how to improve thermal bridging — Threshold detailing to avoid bridging — Closing cavities to meet fire, structural & thermal regs — Calculation of Thermal Bridging - what software? — Calculation of U-Values - getting it right — Cut-to-fall roof thermal calculation - not as simple as an average — DEAP - an understanding
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ph+ | editor’s letter | 87
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