Introba Science & Technology Brochure

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J. Craig Venter Institute
© Nick Merrick

We are the curious Unlocking potential

Building Systems, Sustainability Strategy, Digital Advisory, and Analytics

Introba is a global building engineering and consulting firm with over 1,000 engineers, planners, designers, and consultants in offices across the United States, Canada, the United Kingdom, Australia, and Serbia.

History

Introba was formed in 2022 by the coming together of Integral Group — pioneers of deep green engineering — and Ross & Baruzzini, a leading technology, security, and engineering firm, founded in 1953.

Mission

To transform the built environment by optimizing Living Systems.

Living Systems are dynamic, responsive, intelligent, resilient, adaptable, and interconnected.

We work with our clients to envision, analyze and design the next generation of buildings, districts, and communities with these vital attributes embedded.

Practices

Our Living Systems approach supports our clients across the entire project life cycle: from strategy, through design and construction, to asset performance optimization. We offer a unique and cohesive range of services across building systems engineering, sustainability strategy, digital advisory, and analytics.

Our services include:

• Design Analytics

• Digital Advisory

• Fire Protection Engineering

• Lab Equipment Planning

• Lighting Design

• MEP Engineering

• Security & Resilience Consulting

• Sustainability Consulting

• Technology Consulting

1,000+

Employees and growing 70+years

Company history

100+

Net Zero Energy projects

700+

Certified projects under LEED, BREEAM, Living Building Challenge, and Green Star sustainability rating systems

Learn more about Introba: introba.com

Have a challenge for us? hello@introba.com

Westwood Hills Nature Center – Minnesota, MN, USA © Corey Gaffer
Rutherford Regional Science & Innovation Center, Christchurch, NZ ©LightForge Dennis Radermacher
Monash University New Horizons – Melbourne, AUS © Steve Morton
Boulder Commons – Colorado, USA
© Bruce Damonte
GTAP Building D - Surrey, British Columbia, CA © Ed White Photography

Designing Living Systems Transforming Built Environments

A Better Way of Tackling the Most Complex Challenges

Think big

At Introba, we take a different approach. We look at the whole system, instead of focusing on the parts.

Welcome to Living Systems.

Be inspired.

Our Living Systems approach is inspired by the resilience of natural, living systems.

They are characterized by high levels of interconnectivity, interdependency, resource sharing, and constant change.

The same attributes are key to transforming the built environment at all scales, from the city block down to the intricacies of designing and equipping a laboratory.

Inquiring minds

We are the curious. We thrive when challenged. Rather than see problems, we see opportunities for better.

Whole systems thinking

Buildings are not standalone. They are connected parts of complex systems. By understanding the connections, we can improve a system’s performance as an integrated whole.

Unlocking potential

For every project we ask, “what if?”

To break away from business as usual requires creative courage. Each project presents unique opportunities to be harnessed with distinctiveness.

Embracing change

As context changes, living systems adapt and evolve. We design for a dynamic future by embedding resilience, adaptability, and flexibility into our clients’ projects. We face up to uncertainty and harness disruptive innovation.

Get in touch to begin a conversation about how Introba could unlock potential for you: hello@introba.com

Discover the power of Living Systems: introba.com/about/living-systems

Regenerative mindset

Living systems are self-sustaining. We are committed to protecting and enhancing the natural environment through our work and as a business.

Google Bay View Campus – Mountain View, CA, USA © Iwan Baan Huntington Medical Research Institutes
Research
- Pasadena, CA, USA © Nico Marques
Hackbridge Primary School – London, UK © Jack Hobhouse, Architype
Indiana University Academic Health Center – Indianapolis, IN, USA © Perkins&Will

Science & Technology Engineering

Innovation

From research laboratories to high-speed computing facilities, we help create some of the world’s most technologically complex buildings.

We provide strategic master planning, building systems engineering, consulting, and commissioning services for S&T clients around the globe.

Our capability includes research and teaching laboratories, clean rooms, data centers, greenhouses, pilot plants, pharmaceutical facilities, advanced manufacturing, and technology-focused corporate campuses.

Energy Conservation and Sustainability

We are pioneers of sustainable S&T projects — buildings designed for the comfort, health and safety of users and optimized for energy and environmental performance.

Next Generation Laboratories

We are engineers for some of the world’s most advanced private-sector, institutional, and government research facilities.

Comprehensive Data Center Services

We offer a full suite of advisory and consulting services across the project lifecycle — feasibility assessments and strategic analysis, programming and budgeting, design and implementation, commissioning, relocation planning, and move management.

High-Tech Corporate Campuses

We work with the world’s leading tech companies to create environments that support innovation.

RECENT AWARDS

2022

Have a challenge for us? sciencetech@introba.com introba.com/sectors/science-technology

Western Sydney University Science Building –Parramatta, NSW, Australia © Rodrigo Vargas
California Institute of Technology Thomas Laboratory of Engineering – Pasadena, CA, USA © Lawrence Anderson
UC Santa Cruz Biomedical Sciences Facility – Santa Cruz, CA, USA © Matthew Millman
J. Craig Venter Institute – La Jolla, CA, USA
© Hedrick Blessings Photographers, Nick Merrick
Rutherford Regional Science and Innovation Centre – Christchurch, New Zealand © Lightforge Photography, Dennis Radermacher

Science & Technology Projects

View Science & Technology projects on our website: introba.com/sectors/science-technology

Energy Systems Integration Facility, National Renewable Energy Laboratory

Innovation design and cooling systems deliver one of the world's most energy-efficient data centers.

This project presented several complex challenges: cooling a high-density data center and conditioning sophisticated laboratories without using a lot of energy. To address those issues successfully, our team worked closely with our partners at the National Renewable Energy Laboratory (NREL) in the USA throughout the design development process to create one of the world’s most energyefficient data centers.

Due to Colorado’s climate, we determined that the Energy Systems Integration Facility (ESIF) data center could use chiller-free and compressor-free cooling yearround. Therefore, we designed lowapproach cooling towers to supply medium-temperature (71°F) chilled water to the server rooms.

That medium-temperature water cools both the high-performance computing (HPC) system and the rest of the servers in the data center, eliminating the need

for expensive and failure-prone chillers.

Our team designed rear-door heat exchangers in the data center to cool the servers. These cooling coils trap the hot air exhausted by the servers and immediately cool it with the medium-temperature chilled water.

We also designed ESIF’s office and laboratory areas to conserve energy. A moderate window-towall ratio, increased floor and roof insulation, and triple-element windows improve the facility’s insulation value and the employees’ thermal comfort and well-being.

Once the facility is fully built out over the coming years, it will become a full district energy system.

LOCATION: Denver, Colorado, USA

CLIENT: National Renewable Energy Laboratory

PROJECT SIZE: 182,000 ft 2

ARCHITECT: SmithGroup

CONSTRUCTION VALUE: USD$50 million

COMPLETION: 2013

SUSTAINABILITY: LEED Gold Certification

SERVICES PROVIDED:

Electrical Engineering Mechanical Engineering Plumbing Engineering

"We are taking steps up the energy performance ladder towards greater sustainability and ease of operations”
Eric Solrain, Senior Principal, Introba

New Academic Health Center of Medical Education & Research

Global

hub

of

excellence sets the tone for medical precinct at Indiana University School of Medicine

The Indiana University (IU) School of Medicine is the largest medical school in the USA and is recognized worldwide for its pioneering research into Alzheimer’s and other neurodegenerative diseases. This new academic health center project is the largest construction work in the school’s 120-plus year history.

The new medical education and research facility will house thousands of student physicians and fellows. Over time, more than half of Indiana’s physicians will go there to learn medical disciplines, understand team dynamics, and build lasting relationships.

The 11-story building will have a three-story academic base. An office and research and office tower above that have been designed for future flexibility in its use of space with the ability to convert office space into more labs. The building design has optimized training for physicians with the latest technology, such as holographic ways of learning anatomy.

There will be medical education labs for everything from anatomy, anesthesia, dermatology, and endocrinology to gastroenterology, oncology, nephrology, and imaging sciences. The new research labs will offer wet bench, computational, and vivarium settings, as well as simulation labs.

Residents and fellows can also hone their skills in the surgical learning lab while getting real-time feedback on many types of surgery.

Our team also incorporated sustainable features into the design, including active chilled and hot water beams, exhaust air energy recovery, external shading fins, daylighting and daylighting controls, and occupants' control or setback of lighting, space temperature, and ventilation.

The facility forms part of the new Indianapolis medical precinct, alongside the IU Neuroscience Research Building and the planned new hospital.

LOCATION: Indianapolis, Indiana, USA

CLIENT: Indiana University School of Medicine

PROJECT SIZE: 328,000 ft 2

ARCHITECT: Perkins & Will / Browning Day

CONSTRUCTION VALUE: USD$245 million

COMPLETION: End of 2024

SUSTAINABILITY: LEED Gold Certification is being pursued

SERVICES PROVIDED:

Mechanical Engineering

Electrical Engineering

Plumbing Engineering

Fire Protection Engineering

"This state of the art facility will transform how we train generations of future physicians.”
Dr. Jay L. Hess, IU School of Medicine
© Perkins&Will

J. Craig Venter Institute

World's first zero-energy, zero-carbon-designed lab reimagines all-electric design

The J. Craig Venter Institute (JCVI) is known around the world for its genomic research. Founded in 1992, the organization has around 300 scientists and staff dedicated to human, microbial, plant, and environmental genomic research, as well as exploring social and ethical issues in genomics.

This purpose-built facility includes flexible wet laboratories for molecular biology, dry labs for cutting-edge computational biology, and office spaces. The building is a carbon-neutral lab without having “buying” carbon offsets and uses at least 50% less energy than a typical laboratory building, thanks to on-site power generation.

Our team’s mechanical, electrical, and plumbing strategies reduced JCVI’s overall energy consumption by 75% compared with a typical laboratory. They also set up the

rooftop photovoltaic system to generate enough power to achieve net-zero energy operation.

The facility uses highly efficient, all-electric heat pumps for peak heating and cooling. Operable windows with coastal views and breezes provide natural ventilation and daylight to all office spaces.

Beyond the energy goals, this project also incorporated a 95,000-gallon rainwater storage system that meets all non-potable building water demands for most of the year. The system reduces potable water consumption by 70% annually.

Our team's design improved the thermal comfort and well-being of the scientists and researchers with natural air ventilation and natural light for all occupied spaces.

LOCATION: La Jolla, California, USA

CLIENT: J. Craig Venter Institute

ARCHITECT: Zimmer Gunsul Frasca (ZGF)

PROJECT SIZE: 45,000 ft 2

CONSTRUCTION VALUE: USD$35 million

COMPLETION: 2016

SUSTAINABILITY: LEED Platinum Certified Zero Carbon Net Zero Energy Designed

SERVICES PROVIDED: Mechanical Engineering

Electrical Engineering

Plumbing Engineering Commissioning

Awards

2015 American Institute of Architects San Francisco Chapter, Excellence in Energy and Sustainability Award

2016 ASHRAE Golden Gate Chapter, First Place Category II Institutional Buildings

2016 ASHRAE Regional, Honorable Mention in ASHRAE Technology Awards

2016 AIA COTE Top 10

"Our mechanical systems use energy recovery and thermal storage strategies to achieve highperformance energy targets.”
Eric Solrain, Senior Principal, Introba
© Nick Merrick

Royal Canadian Mounted Police E Division Forensics Laboratory

New western Canadian facility designed to help technician use cutting-edge scientific techniques

Our team was heavily involved in creating a new forensic lab at the Royal Canadian Mounted Police (RCMP) E-Division’s headquarters in Surrey, BC, Canada. This new 88,000-square-foot forensic lab building includes office spaces and chemistry and biology lab suites.

National Forensic Laboratory Services (NFLS) is part of Canada’s National Police Services. It operates as a single public laboratory system at three sites, including Surrey. NFLS provides forensic services in biology, firearms, toxicology, and trace evidence for police across Canada.

The lab technicians carry out extremely specific processes and procedures to prepare evidence for court cases. The excellent space layout is a direct result of regular, proactive meetings with those technicians at all levels in the early design meetings.

Being a police building, our designs also had to incorporate security and reliability features, following all RCMP protocols. We carefully reviewed the mechanical system design and energy performance to ensure the most flexible and robust system was provided within the construction budget.

Since this was a P3 project, and the mechanical contractor was part of the design team, we worked closely with the mechanical contractor during design to ensure constructability. We designed the project in Revit and coordinated extensively with other disciplines to minimize conflict on site and any change orders.

Key features of the design were airto-air and air-to-water exhaust air heat recovery, room pressurization control, and a robust mechanical system with full redundancy in the laboratories.

LOCATION: Surrey, British Columbia, Canada

CLIENT: Royal Canadian Mounted Police

ARCHITECT: Kasian

PROJECT SIZE: 88,000 ft 2

CONSTRUCTION VALUE: CAD$52 million

COMPLETION: 2019

SUSTAINABILITY: LEED Gold

SERVICES PROVIDED:

Mechanical Engineering

Electrical Engineering

Energy Modeling

Award

2019 Silver Award Winner, Regional Construction Association Awards of Excellence, Vancouver

"We carefully evaluated two energy recovery methods, going above and beyond to deliver both energy and cost savings”
Mary On, Senior Associate, Introba
© Mary On
© Mary On

Rutherford Regional Science and Innovation Centre

University of Canterbury facility provides a hub for New Zealand's burgeoning science and innovation

This project had a unique challenge: the need to deliver high-quality science in a center that could withstand the impact of a one-in-a1,000-year earthquake. This led to an innovative steel-framed building, shaped like an X chromosome, sitting on a thick concrete slab incorporating distinctive red buckling restrained braces.

The development had two stages. The first — the Rutherford Regional Science and Innovation Centre (RRSIC) — was completed in April 2017. Phase two — the Beatrice Tinsley Building, housing the Postgraduate and Staff Research Hub — was completed in 2019.

The RRSIC comprises:

• An undergraduate teaching hub with a range of physics, astronomy, chemistry, geology, and other science laboratories

• A postgraduate and departmental hub that colocates academic staff and their postgraduate students with their research labs

• Specialist research facilities, including nuclear magnetic resonance, X-ray crystallography, and electron microscopy

There are 124 fume cupboards in the building, of which 118 are manifolded, which allows flexibility and fan power energy savings as well as the ability to reclaim heat from the exhaust stream to preheat incoming make-up air.

Our team used an existing underground aquifer to provide cooling to classrooms and scientific equipment and for heating using a water-cooled reverse cycle heat pump chiller. The aquifer is also used for heat rejection for the chiller when in cooling mode.

LOCATION: Christchurch, New Zealand

CLIENT:

University of Canterbury, New Zealand

ARCHITECT: JASMAX

PROJECT SIZE: 20,500 m2

CONSTRUCTION VALUE:

NZD$216 million

COMPLETION: 2019

SUSTAINABILITY:

Benchmarked against the NZGBC Green Star Education Tool

SERVICES PROVIDED:

Mechanical & Electrical Engineering

Vertical Transportation

Sustainability

Acoustics

Security Engineering

"We can equip our students fully for the future. This is the future of science and we are excited to be at its leading edge.”
Professor Wendy Lawson Vice Chancellor, College of Science
© Lightforge Photography, Dennis Radermacher

Elanco Animal Health, New Global Headquarters

Shaping a better and more sustainable future for the welfare of animals around the globe.

Elanco, the world's secondlargest independent animal health company, aims to make Indiana a national hub for animal health innovation.

This project, its new global headquarters, will include a sixstory office building, a research and development lab facility, and a scientific discovery network to attract the brightest and best talent.

Sustainability is at the top of Elanco's list. Our teams have mapped out several sustainable design strategies for the new campus, including highperformance building envelopes, extensive occupancy-based control of ventilation systems, daylight harvesting, renewable energy systems, exhaust air energy recovery, and low-flow plumbing fixtures.

The campus will have a wide range of amenities and services designed to support a flexible work-life balance for Elanco’s employees and boost the company culture

of ownership and innovation. The multi-use collaboration building is to also be a major destination for global customer events and scientific meetings.

The 220,000-square-foot campus will have a more comfortable, casual work environment. Its enhanced interior environmental quality will incorporate daylight, and active circulation paths, as well as an air quality monitoring system to ensure fresh air.

In terms of carbon emissions, the campus will use renewable and low-carbon materials, such as its timber roof, in order to avoid nearly 100 tons of emissions. Enhanced stormwater management capacity and a native palette for plants will better manage on-site water use and build long-term resilience for the site.

LOCATION: Indianapolis, Indiana, USA

CLIENT: Elanco

ARCHITECT:

CSO Architects

PROJECT SIZE: 240,000 ft 2

CONSTRUCTION VALUE: USD$150 million

COMPLETION: 2025

SUSTAINABILITY: LEED Silver Certification anticipated

SERVICES PROVIDED:

Mechanical Engineering

Electrical Engineering

Plumbing Engineering

Fire Protection Engineering

IT / Technology

Security Engineering

"We're building a vibrant destination for our nearly 10,000 employees to collaborate, connect, and invent”
Jeff Simmons President & CEO, Elanco
© RATIO I CSO
© RATIO I CSO

LABORATORIES REBORN

Lafferre Hall, University of Missouri-Columbia

We worked on demolishing and reconstructing 51,000 square feet of engineering labs, including an ISO 6 (Class 1000) nano-technology clean room, and renovating classrooms and office spaces at historic Lafferre Hall. The new labs support research, teaching activities and equipment. Our team included provisions in the MEP infrastructure to support the conversion of labs between wet and dry operations without sacrificing energy performance.

We configured the classrooms and instructional labs to be highly flexible with numerous distributed audio-visual input/output connection points to make the transfer of information between the teacher’s and students’ displays and distributed large monitors seamlessly throughout. Our detailed energy modeling and payback analysis resulted in several energy conservation measures in the design. These included ventilation air reduction and exhaust air energy recovery.

EMPOWERING ENTREPRENEURS

Crescent Building Renovation

The renovated three-story Crescent Building has a storied presence in St. Louis. Its 88,000 ft² of facilities can accommodate several biotech companies. Our team designed its new core building systems to be flexible enough to support and adapt to changing occupancies and varying lab-to-office ratios.

The Cortex Innovation Community is a 200-acre urban innovation and entrepreneurship center in Missouri that fosters and accelerates highgrowth start-ups. The multistory atrium, the former home of the building's printing presses, now houses the labs, which are surrounded by glasswalled office suites, support spaces, and meeting rooms. The building’s massive central staircase helps to improve airflow throughout.

New electrical, water, and HVAC systems have enhanced the building's efficiency, while natural light suffuses many areas via 20-foot windows. The renovation project also added a walkout terrace and a green roof.

LOCATION: Columbia, Missouri, USA

CLIENT:

University of Missouri-Columbia

PROJECT SIZE: 119,000 ft 2

CONSTRUCTION VALUE: USD$33 million

COMPLETION: November 2016

SUSTAINABILITY: LED lighting and daylight harvesting

SERVICES PROVIDED:

Mechanical & Plumbing Engineering

Audio-Visual Engineering

LOCATION: St. Louis, Missouri, USA

CLIENT: Cortex Innovation Community

PROJECT SIZE: 88,000 ft²

CONSTRUCTION VALUE: USD$28 million

COMPLETION: 2019

SERVICES PROVIDED:

Mechanical Engineering

Plumbing Engineering

Fire Protection Engineering

Crescent Building Renovation, Cortex Innovation Community © Sam Fentress
Lafferre Hall, University of Missouri-Columbia © Lisa Carter

CITY LIFE REIMAGINED

Horton Plaza Life Sciences Tower

Horton Plaza is a focal point of San Diego life. Its old vast shopping complex is being reimagined as a creative office campus and an innovation hub for science, technology, arts, entertainment, and education. Our team worked on this new 10-story tower, which is designed as warm-shell, speculative laboratory space. Sustainability is at the project's heart: the new Horton campus aims to be Net Zero Carbon by completion in full in 2040. We designed mechanical systems as all-electrical to meet those goals.

The life science tower is served by San Diego’s first on site commercial blackwater treatment system, which harvests wastewater from the restrooms and treats it for reuse in the cooling towers. Water-source heat pumps then draw heat out of the chilled water return piping to provide heating for the offices. By using thermodynamic zoning of the air handling units, we have removed the need for hot water piping and reheating.

AT THE FRONTIER OF BRAIN SCIENCE

Neuroscience Research Building

This 11-story building at the Washington University School of Medicine brings together more than 100 teams comprising 875 researchers including experts in neurology, neuroscience, neurosurgery, psychiatry, and anesthesiology. They aim to unravel the mysteries of the body's nervous system. The building features open, highly flexible lab spaces designed to promote collaboration and interdisciplinary research. The 50,000-squarefoot vivarium in the lower level connects with vertical vivarium spaces on six other building levels,and an auditorium and food service operation.

Our team set up integrated system testing for multiple critical spaces to verify that all equipment functions together correctly in normal operation and various failure scenarios. These spaces include an MRI suite, operating rooms, surgery suites, and a mass spectrometer lab. Floor spaces are organized around research themes such as addiction, neurodegeneration, sleep and circadian rhythm, neurogenomics, and neurogenetics.

LOCATION: San Diego, California, USA

CLIENT:

Stockdale Capital Partners

PROJECT SIZE:

300,000 ft 2 Life Science Tower

CONSTRUCTION VALUE: USD$330 million

COMPLETION: 2024

SUSTAINABILITY: LEED Platinum

SERVICES PROVIDED: Mechanical & Electrical Engineering Plumbing Engineering

LOCATION: St. Louis, Missouri, USA

CLIENT:

Washington University School of Medicine

PROJECT SIZE: 610,000 ft 2

CONSTRUCTION VALUE: USD$500 million

COMPLETION: 2023

SUSTAINABILITY: LEED Gold

SERVICES PROVIDED:

Mechanical, Electrical, Plumbing & Fire Protection Engineering

Horton Plaza Life Sciences Tower © Stockdale Partners
Washington University © CannonDesign

RESEARCH AND INNOVATION HUB

Qatar Foundation Fundamental Science Building

Our team delivered high-level design and sustainability work, including the masterplan, landscape, and infrastructure, on this centerpiece building at this Qatari research and development cluster. Researchers here focus on emerging energy and water security challenges, such as desalination and grid power storage.

Our design identified strategic opportunities such as integrating renewable energy systems, using the building form to enhance the local microclimate, applying best practices in high-performance lab design to reduce energy demands, and maximizing the flexibility and adaptability of the building. This resulted in an active chilled beam system with demand control ventilation, a high-performance building envelope, and solar panels across two-thirds of the roof that meet 5% of the building's energy demands. We collaborated with colleagues from Perkins+Will on developing the design and from Sidara on infrastructure and local code compliance.

GENETIC MEDICINE GOLD STANDARD

LOCATION:

Education City, Doha, Qatar

CLIENT:

Qatar Foundation

PROJECT SIZE:

506,000 ft 2

CONSTRUCTION VALUE: £150 million

COMPLETION: 2019

SERVICES PROVIDED:

Mechanical & Electrical Engineering

Plumbing Engineering

Sustainability

Thermal Modeling

Precision Nano-Systems GMP Facility

A major renovation of an industrial building led to this new biomanufacturing facility in Vancouver, Canada. The space now houses a floor of wet laboratories and offices, a floor consisting of GMP-certified biomanufacturing, warehousing, and supporting wet laboratories, and one floor of general office and meeting space.

Our team led the design and installation of a completely independent HVAC central plant. This required 10 new air handling units to supply only the second floor, a separate system for all of the third, and a manifold exhaust system for all major exhaust. Other major engineering successes included a high plume exhaust turn-down based on wind tunnel modeling and sensing on the roof; lab exhaust active heat recovery; 100% redundancy for all GMP systems, including standby power coordination to limit shutdowns or failures; and detailed 3-D modeling of all systems and coordination between GMP and base building systems.

LOCATION: Vancouver, British Columbia, Canada

CLIENT: Precision NanoSystems

PROJECT SIZE: 80,000 ft 2

CONSTRUCTION VALUE: CAD$57.4 million

COMPLETION: 2024

SERVICES PROVIDED: Mechanical Engineering Energy Modeling

Qatar Foundation Fundamental Science Building © Adwo
Precision NanoSystems GMP Facility @ Totojang1977

HIGH-PERFORMANCE RESEARCH CENTER

CANMET Materials Technology Laboratory

This research center is one of the largest in Canada, dedicated to three key industrial sectors: transportation, energy, and metals. Our team created an integrated building model that incorporated various analyses using virtual environment (VE) software. The data encompassed thermal comfort, energy consumption, airflow, and daylighting. Departing from conventional building system strategies, our team focused on site-specific conditions to support its approach.

This included a ground-source heat pump (geo-exchange) energy plant, hydronic radiant slab heating and cooling, variable-flow lab exhaust systems, and daylighting and occupancy controls for lighting. Passive architectural features were also a strong component. We used external shading features and green, reflective roofs, optimized the façade and layout for daylight penetration, and integrated renewable energy into the façade.

SUSTAINABILITY STANDARD BEARERS

LOCATION:

Hamilton, Ontario, Canada

CLIENT:

McMaster Innovation Park

PROJECT SIZE: 177,280 ft 2

CONSTRUCTION VALUE: CAD$69,000

COMPLETION: 2011

SUSTAINABILITY: LEED Platinum

SERVICES PROVIDED: Mechanical Engineering Electrical Engineering

AbCellera Biologics Global Headquarters

This seven-story facility, which comprises office and research laboratory spaces, is the first phase of AbCellera’s global headquarters in Vancouver, Canada. It adheres to LEED standards and features an innovative, energy-efficient design with Zero Carbon heating and domestic hot water production, a new benchmark in sustainability for laboratories in British Colombia. The mechanical design also had to meet the stringent building requirements of the City of Vancouver. This involved using heat pump technology and a flexible ventilation system to accommodate future expansion or renovations.

The electrical design includes a resilient power system throughout the building, which features flexible distribution for potential lab expansions and backup power from generators and uninterruptible power supply (UPS) systems in case of outages. Once complete, the entire campus will include R&D laboratories and pharmaceutical manufacturing facilities.

LOCATION:

Vancouver, British Columbia, Canada

CLIENT:

AbCellera Biologics

PROJECT SIZE: 157,000 ft 2

CONSTRUCTION VALUE: Confidential

COMPLETION: 2024

SUSTAINABILITY: LEED Gold

SERVICES PROVIDED:

Mechanical & Electrical Engineering Lighting Design Technology

CANMMET Materials Technology Laboratory © Diamond Schmitt Architects
AbCellera Biologics Global Headquarters © Ed White Photographics

GLOBAL RESEARCH HUB

New Horizons Research Centre

The New Horizons Research Centre enables global research opportunities across multiple disciplines for engineers, governments, industry, researchers, and scientists. It provides teaching facilities for 500 undergraduate students, academics, and researchers. Our team worked on the centre’s offices, wet and dry laboratories, including physical containment level 2 (PC2) labs, central voids with cross-over bridges, a café, and a collaboration lounge.

Using leading-edge technologies, our team balanced the specific needs of a first-class research facility and its high-energy users with the low-energy sustainability requirements for the building. We used mechanical systems, including a centralized cooling and heating plant, laboratory ventilation systems, laboratory cooling and process cooling systems, reticulated laboratory gases, and office and laboratory air conditioning systems.

WORLD-CLASS INFRASTRUCTURE

LOCATION: Clayton, Victoria, Australia

CLIENT: Monash University

PROJECT SIZE: 23,000 m2

CONSTRUCTION VALUE: AUD$140 million

COMPLETION: 2014

SUSTAINABILITY: 6 Star Green Star Education Design v1

SERVICES PROVIDED: Mechanical, Electrical, & Plumbing Engineering

Project BRIGHT, Australian Synchrontron

The Australian Synchrotron accelerates electrons close to the speed of light, producing synchrotron light at high intensity and in a broad range of electromagnetic spectrum ranging from infrared to x-rays. It features 10 world-class beamlines that cover a broad range of applications.

Our team was the engineering services designer for Project BRIGHT, which expanded the Synchrotron’s capability with seven new research beamlines. Some new beamlines need to focus X-rays to a spot less than 100 nanometers in diameter. This level of precision can only be achieved when the enclosures are maintained with extremely stringent temperature stability. We designed the HVAC systems to provide stringent temperature and humidity control within the enclosures for the new beamlines. Our electrical engineering expertise also mitigated static electricity risks associated with the low relative humidity environments required in several enclosures.

LOCATION: Clayton, Victoria, Australia

CLIENT: Australian Nuclear Science and Technology Organisation

ARCHITECT: Lyons

PROJECT SIZE: 13,000m2 [complete facility]

CONSTRUCTION VALUE: AUD$110 million

COMPLETION: 2022

SERVICES PROVIDED: Mechanical Engineering Electrical Engineering

New Horizons Research Centre © Steve Morton
Project BRIGHT, Australian Synchrontron © ANSTO

GROUNDBREAKING EXCELLENCE

John Curtin School of Medical Research

Our team worked across the three-stage redevelopment of the John Curtin School of Medical Research (JCSMR), Australia’s national medical research institute. The school now has facilities for the faculties of Immunology, Bioinformatics, Structural Biology, Genetics, and Neuroscience.

The Stage 1 building has many different sustainable features, including adaptive air conditioning for the offices, a thermal labyrinth for pretreating outdoor air, and displacement ventilation with occupancy-driven ventilation to the lecture theatre.

Stage 2 is a purpose-designed building providing new microscopy, cytometry, histology facilities, animal containment suites, wash-up areas, and two levels of immunology and genetics research laboratories. The third stage involved a new three-level facility, enabling the Eccles Institute and JCSMR Structural Biology Division to deliver world-class research.

EXCELLENCE IN KNOWLEDGE EXCHANGE

Life Sciences Building

This state-of-the-art project at the University of Sussex brought together disparate scientists from fields such as cancer biology, drug discovery, neuroscience, and biodiversity in a single space to facilitate better interaction and collaboration. Our team placed sustainability at the forefront of the design, using early modeling input to deliver an alternative solar and shading strategy to reduce heating and cooling. This also improved the overall efficiency of the building.

External vertical fins, carefully detailed in to match the concrete façade sections of the building that reference the aesthetic of the original Sir Basil Spence-designed campus, were placed in front of the curtain wall glazing to help minimize incoming solar heat gain and reduce solar glare. The fins’ work on reducing the cooling load of the building has not only saved costs in air conditioning, but also by increasing the longevity of the building itself.

LOCATION:

Acton, Australian Capital Territory, Australia

CLIENT: Australian National University

PROJECT SIZE: 23,000 m2

CONSTRUCTION VALUE: AUD$150 million

COMPLETION: 2013

SERVICES PROVIDED:

Mechanical & Electrical Engineering Sustainability Consulting Fire Engineering

LOCATION: Falmer, Sussex, UK

LOCATION: Jeddah, Saudi Arabia

CLIENT:

CLIENT: University of Sussex

General Authority of Civil Aviation

PROJECT SIZE: 17,800 ft 2

ARCHITECT: Dar Al Handasah

CONSTRUCTION VALUE: £80 million

PROJECT SIZE: 8,700,000 ft 2

CONSTRUCTION VALUE:

USD$16 billion

COMPLETION: 2020

COMPLETION: November 2020

SUSTAINABILITY: BREEAM Rating Excellent

SERVICES PROVIDED:

SERVICES PROVIDED: Airport Special Systems Engineering Security Engineering

Mechanical, Electrical, & Plumbing Engineering Energy Modeling

John Curtin School of Medical Research © Lyons
Life Sciences Building, University of Sussex © Hawkins Brown

Expertise Assembled

Right Team, Right Place, Right Time

Our work is delivered by four integrated practices. We unlock potential for our clients at every stage of the built environment’s transformation: from strategy, through design and construction, to asset performance and optimization, backed by analytics at every stage.

Our regional teams understand deeply the needs of their local markets and are just as confident working collaboratively on projects further afield as part of our global network.

Buildings

Planning, consulting, engineering, and design.

We provide mechanical, electrical, fire protection, and water systems engineering for buildings and districts.

Our engineers design systems that enhance building performance for the benefit of owners and investors, occupiers, communities, and the environment.

These core MEPF engineering capabilities are supported by a continually evolving range of planning, consulting, engineering, and design specialisms.

© Catherine Chan

Strategy

Translating bold ideas into action.

We develop innovative policy frameworks, performance standards, and delivery roadmaps.

We work with policymakers, government agencies, institutions, and businesses to develop strategies for organizations, projects, campuses, portfolios, districts, cities, and regions.

We put guardrails around strategic objectives while offering ongoing support to monitor their implementation.

Policy and Planning

Masterplan Visioning

Climate & Sustainability

Corporate ESG Strategy

Circular Economy

Sustainability Certification & Assurance

Digital

Connecting the digital to the real.

We help clients to build better with digital insights and expertise. We fuse the power of data, emerging technologies, intelligent buildings and transportation, and domain expertise to transform how buildings and communities work. From technology visioning to data-driven operations, our teams map our clients’ needs to deliver emerging solutions for impact, resilience, and success.

Building Health & Wellness – Digital Advisory

Digital Transformation

Reality Capture

Digital Twins

BIM – Immersive Applications

Automation & AI – Smart Buildings, Mobility and Infrastructure

Analytics

Putting data behind decisions.

Our design analysts combine expertise from the fields of architecture, engineering, physics, computer and data sciences.

We work closely with our buildings, strategy, and digital practices to undertake parametric performance analyses, create specialized modeling tools and develop new ways to visualize, explore and understand data.

We equip clients and design teams with the insights they need to make well-informed strategic decisions.

– Policy & Infrastructure Analysis – Building Energy Modeling – Climate Resilience Assessment

– Life Cycle Analysis

– Whole Life Carbon Analysis

– Computational Fluid Dynamics

– Data Analytics & Visualization

– Microclimate Assessment

– Building Envelope Optimization

– Indoor Environmental Quality

© Cosmin Serban
© Catherine Chan

Your projects Our passion

An award winning portfolio of commissions at every scale

Our sector leadership model combines our technical expertise and local specialist knowledge to best support the needs of our clients.

Market Sectors

We provide our full range of services across six sectors, tackling developments involving multiple building types by assembling cross-sector teams:

Mobility

– Aviation – Rail & Transit

– Highway Facilities – Maritime – Port Facilities

Commercial – Offices – Residential – Retail – Hotels – Hospitality – Sports – Leisure – Stadia – Entertainment – Mixed Use – Arts & Culture – Industrial

Government

– Justice – Civic – Federal Healthcare – Defense – Workspace – Public Safety – Mission Critical – Law Enforcement – Policy & Code Advisory

Science & Technology

– Laboratories – Data Centers

– Pharmaceutical

– Advanced Manufacturing – Greenhouses – Clean Rooms – Medical Research

Education – Schools – Colleges – Universities – Campuses – District Energy – Student Accommodation

Healthcare – Clinics – Hospitals – Medical Offices

– Surgery Centers – Cancer Centers – Care Facilities

Yasodhara Ashram Temple of Light - Kootenay Bay, BC, Canada © Amy Allcock
ASHRAE Headquarters – Peachtree Corners, GA, USA © Jonathan Hillyer
Boden Headquarters – London, UK © Jefferson Smith
J.Craig Venter Institute, CA, USA © Nick Merrick
Roam Transit Operations and Training Centre – Banff, AB, Canada © PCL Construction
Westwood Hills Nature Center – St.Louis Park, MN, USA © Corey Gaffer
Cortex 4340 Duncan Laboratory, USA © Sam Fentress

Inspiring Change Empowering Changemakers

Leading

by Example, Walking the Talk

Thought Leadership

We give clients access to internationally recognized thought leaders in their fields.

We identify talented young professionals with the potential to become changemakers, providing a platform for them to grow and achieve impact.

introba.com/people/thought-leaders

Industry Engagement

Introba plays an active role in support of professional bodies and industry initiatives.

We are active members of US, Canadian, Australian, and UK Green Building Councils and regularly contribute time and expertise to taskforces, working groups and research initiatives.

Defining Best Practices

We work with professional bodies, industry partners and independently to advance the current state of knowledge across the fields in which we practice. Recent contributions include:

– PARAS 0016 : Airport Security Vulnerability Assessments

– Refrigerants & Environmental Impacts: A Best Practice Guide

– The Radiant Whole Life Carbon Study

– Whole Life Carbon of PV Installations

– CIBSE TM 65 : Embodied carbon in building services

– Renewable Natural Gas : What Role Will It Play in Decarbonization in B.C.?

– World Green Building Council : Beyond Buildings

Click on the links above to access these resources. introba.com/news

Impact Fund

Running on an annual basis, our Impact Fund supports thought leadership and transformational initiatives around sustainability and digital innovation, and encourages collaboration with external partners.

introba.com/impact-fund

Net Zero Carbon Buildings Commitment

We are founding signatories of the World Green Building Council (WorldGBC)’s Net Zero Carbon Buildings Commitment. Introba is Net Zero Carbon for Scopes 1 and 2.

MEP 2040 Challenge

We are signatories of the Carbon Leadership Forum’s MEP 2040 Commitment to advocate for and achieve net zero carbon in our projects: operational carbon by 2030 and embodied carbon by 2040.

introba.com/news/

ESG

We published our first annual corporate social & environmental responsibility report in 2017.

We are now leading the development of the ESG program of our parent company, Sidara. This will provide a platform to share our ongoing performance, alongside other companies within Sidara.

introba.com/esg

CONNECTED TO SUCCESS

Introba is part of a global alliance whose members are consulting and engineering firms with unique and complementary specializations, serving the buildings, transportation, and water sectors.

Together we provide our clients with the resources and reach of a truly global company and the innovative thinking and deep focus of a best-in-class specialty firm.

INTROBA OFFICE LOCATIONS: Canada Calgary Edmonton Kelowna Toronto Vancouver Victoria Serbia Belgrade

United Kingdom London Oxford Australia Brisbane Melbourne Sydney

Jeffrey

Our alliance enables us to tailor and scale our solutions to our client’s specific needs. Through technical excellence, local knowledge, and future insight we empower positive change in our communities and for our planet.

United States Atlanta Austin Chicago Dallas Denver Houston Indianapolis Kansas City Los Angeles Miami New Haven New York Oakland San Diego Seattle St. Louis Washington

introba.com

hello@introba.com

linkedin.com/company/introba/ @Introba_Inc

@introba_inc

Kevin Shea Principal Jason Pleaner Principal
OUR LEADERSHIP TEAM

Inspiring Change. Empowering Changemakers.

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