Brent Haynes |Architecture Portfolio (outdated) by Brent Haynes

BRENT HAYNES

ARCHITECTURE PORTFOLIO 2018

BRENT W. HAYNES www.brenthaynes.com

hello@brenthaynes.com

(226)-972-8760 26 Douglas Drive, Ayr, ON

EDUCATION

Carleton University, Ottawa, ON Azrieli School of Architecture and Urbanism Bachelor of Arhitectural Studies - Design 09|2014 - 04|2018

SKILLS

Eastwood Colligiate Institute, Kitchener, ON Integrated Art Program - Visual Art Ontario Scholar|Grade 9-12 10|2009 - 06|2014

Scotiabank EXPERIENCE Real Estate Department, Toronto, ON Design Constultant 09|2017 - 04|2018 WORK

Scotiabank Real Estate Department, Toronto, ON Design Student 05|2017 - 08|2017 Scotiabank Real Estate Department, Toronto, ON Competition Review 05|2016 - 08|2016 Scotiabank Real Estate Department, Toronto, ON Occupancy Cost Control 05|2015 - 08|2015 Schlegel Urban Developments, Kitchener, ON Landscaping 07|2014 - 08|2014

AutoCAD Photoshop Powerpoint SketchUp Rhinoceros Excel Revit Indesign Illustrator Premiere Pro V-ray Rendering GIS (ArcMap)

Proficient Proficient Proficient Proficient Intermediate Intermediate Intermediate Intermediate Intermediate Beginner Beginner Beginner

Inspiration Village ACCOMPLISHMENTS Public Display| 2017 AWARDS AND

Building 22 Publicaton Featured Student| 2016 Sea-Can Design Competition Honorable Mentions| 2016 White “E” Certificate Commitment to extracurricular activities| 2013 and 2014 Eastwood C.I. Art Show People’s Choice|2013 Eastwood C.I. Art Show Juror’s Choice & Honorable Mentions|2012 Eastwood C.I. Art Show Honorable Mentions|2012

CONTENTS

LINKING LEBRETON

KINDERGARTEN IN KANATA

WITH THEADZE

BORDER CROSSINGS

DIRECTORS PROJECT 2017

ORPHEUM

150 YEARS IN THE FUTURE

CENTRE OF ROTTERDAM

DIRECTORS PROJECT 2016

CAMPUS PAVILION FRAGMENTATION

105 PRESTON STREET

COMMUNITY HOUSE

TECHNICAL DRAWINGS

CCA DESIGN CHARRETTE

LINKING LEBRETON | THEADZE HIGHRISE FALL 2017 | STUDIO 6 | INSTRUCTOR: BENJAMIN GIANNI

Linking Lebreton is an alteration on the award winning â&#x20AC;&#x153;Rendezvous Lebretonâ&#x20AC;? master plan. This adapted design began with a line of sight discovery created by the newly allocated library location. This line of sight creates a connection between the library and Ottawa Senator Arena, while cutting across the lively and centralized aquaduct. The new plan was derived from this idea of linkage between landmarks. This evolved into a centralized elongated park on the north half of the site, and a muse on the south end.

Collaboration: Martin Trivieri

*Site Analysis completed by entire studio group

THEADZE HIGHRISE

This urban idea then translated to the building scale, where orientation and site strategy was organized around itâ&#x20AC;&#x2122;s surrounding links. The highrise, on the north end of the site has 112 hotel units and 239 residential units. The breakdown of the unit types are as follow: CONTEXT VIEW

GREEN

RETAIL

TOWNHOUSES

AQUA-GARDEN

RESTAURANT

HOTEL

FLOOR PLAN TYPE 1

FLOOR PLAN TYPE 2

FLOOR PLAN TYPE 3

EAST ELEVATION

NORTH ELEVATION

1 2 3 4 5 6 7 8 9 1 TYPICAL STOREFRONT WALL DETAIL

2 3 4 5 6 7 8 9

ALUMINUM COMPOSITE PANEL

PANEL CLIP AND FASTENER

XPS RIDGID INSULATION

GALVANIZED STEEL ‘Z’-GIRT

FIBERGLASS WINDOW SILL FRAME

VAPOUR BARRIER

FIBERGLASS MAT SHEATING

LIGHT STEEL FRAMING STUDS @ 400 O.C.

LIGHT STEEL FRAMING TRACK

3OOmm REINFORCED CONCRETE FLOOR

TYPICAL PARAPET DETAIL 1

GALVANIZED STEEL PARAPET CAP SLOPED 5 DEGREES ROOF SIDE

2 PLY MODIFIED BITUMINOUS ROOF MEMBRANE

XPS RIDGID INSULATION

VAPOUR BARRIER

3OOmm REINFORCED CONCRETE PARAPET

XPS RIGID INSULATION

ALUMINUM COMPOSITE PANEL SYSTEM

PAVING SUPPORT PEDESTALS

CONCRETE PAVER TILES

1 2 3 4 5 6 7 8 9 10 11

TYPICAL CONCRETE PANEL AND CURTAIN WALL DETAIL

1 2 3 4 5 6 7 8 RESIDENTIAL WINDOW DETAIL 1

ALUMINUM COMPOSITE PANEL

PANEL CLIP AND FASTENER

XPS RIDGID INSULATION

FIBERGLASS WINDOW SILL FRAME

3OOmm REINFORCED CONCRETE UPSTAND

ZINC FLASHING/DRIP EDGE

VAPOUR BARRIER

3OOmm REINFORCED CONCRETE UPSTAND

LIGHT STEEL STUD FRAME

MINERAL WOOL BATT INSULATION

FIBERGLASS MAT SHEATING

VAPOUR BARRIER

XPS RIDGID INSULATION

FIBER REINFORCED CONCRETE CLADDING PANEL SYSTEM

GLAVANIZED STEEL BRACKET CLIP

XPS RIGID INSULATION

REINFORCING STEEL MESH

3OOmm CONCRETE FLOOR

TONGUE AND GROOVE PLYWOOD SUBFLOOR

1 BEDROOM UNIT PLAN

AQUADUCT

HVAC

RETAIL

SPRINKLER SYSTEM

UNDERGROUND AQUA.

PLUMBING SYSTEM

BICYCLE AND STORAGE

LIGHTING PLACEMENT

PARKING

SPRINKLER REACH

WAR MEMORIAL

Pent-Houses on the 59 and 60th floors taking up the entire floor plate, allowing for cross ventilation and 360 degree views around the site

Elevator shaft for residential units consisting of 4 elevators based on calculations of 1 elevator per 50 units

5 Residential units per floor (totalling 195 units). The rooms are oganized by the following (per floor): 1: 1 Bedroom + Den 3: 2 Bedroom (1 which is accesssible) 1: 3 Bedroom (accessible)

2 storey hotel lobby with vehicle entrance on the park side. Wet bar, excess circulation space and waiting area included.

Elevator shaft for Hotel occupants consisting of 2 elevators based on calculations of 1 elevator per 80 units 13 floors of hotel units with 13 units on each floor. The rooms are organized by the following( per floor): 7: 1 Bed units 2: 2 Bed units 2: 2 Bed unit Suites 1: 1 Bed unit Suite Rooftop padio restaurant for hotel the public to enjoy.

Residential lobby from Booth Street

Small boutique shops attached to hotel space facing adjacent to the park. Grand steps split these shops allowing for both the public and private onto a roof terrace looking onto the park, simultaneously being a secondary entrance into rooftop amenity/pool area

Pedestrian oriented retail along Booth Street

Rooftop amenity/pool area designed to create luxurious privacy in the dense location

Hotel Amenity space such as a gym, work lounge and breakfast bar

Hotel, highrise residential and townhouse parking consisting of 115 parking spots. Transit orientied design decreases the need for average parking requirements

Townhouses on grade for low income families. Additional rooftop access creates a dynamic space and convienent circulation to pool area

UNIT PLAN A

NORTH WEST CORNER (Residential Level 1/3)

UNIT PLAN B

SOUTH EAST CORNER Residential Level 2/3

LEVEL 52 PLAN RESIDENTIAL LEVEL 3/3

Condominium Units: 3 (1 Single Bedroom + 1 Single Bedroom with Den+ 1 Triple Bedroom)

LEVEL 43 PLAN RESIDENTIAL LEVEL 2/3

Condominium Units: 6 (2 Bachelor + 2 Single Bedrooms + 2 Double Bedrooms)

LEVEL 26 PLAN RESIDENTIAL LEVEL 1/3

Condominium Units: 7 (2 Bachelor + 4 Single Bedrooms + 1 Double Bedroom)

LEVEL 8 PLAN TYPICAL HOTEL LEVEL

Hotel Units: 14 (10 single rooms + 3 double rooms + 1 suite)

KINDERGARTEN IN KANATA FALL 2016 | STUDIO 4 | INSTRUCTOR: GIANCARLO MONGONE

Located in Kanata, a suburb west of Ottawa, the building site is surrounded by big box stores and family homes. The site is overgrown, marshy and trees scatter along its perimeter. The kindergarten responds to this environment while simultaneously comprising of pre-established programs inside the building. A mountain-like landscape, formed by large square blocks, acts as a climbable ascending play space that covers schoolrooms below. A journey to the top reveals playful views into rooms below where fellow classmates seek visual interest in the activities above.

The Grand Room, p glazing from ground beyond the concrete more, embracing me

Vegetation grows uni retention pond fuels scale, with the collect

placed central to the Kindergarten, is the main node of physical and visual movement. The large playspace is covered in d to ceiling, providing an everchanging mural of activity for visitors entering the building. Glazed surroundings extend roof above, allowing formation of visual connection from children within the building to the ones outside, while furtheretaphorical imagery of â&#x20AC;&#x2DC;crystal emerging from the rocksâ&#x20AC;&#x2122; from afar.

interruptedly on the concrete surface to create a seamless transition from the prevailing landscape to mountaintop. A large growth along the structureâ&#x20AC;&#x2122;s base, while also providing scenic views to the west. This perception is repeated, on a smaller tion of water in the undulation of stacked blocks above, allowing for micro retention ponds to encourage future growth.

EAST ELEVATION

CROSS SECTION

LONGITUDINAL SECTION

BORDER CROSSINGS | DIRECTOS PROJECT 2017 FALL 2017 | STUDIO 6 | INSTRUCTOR: BEN GIANNI

Every wall, every gate, every boundary line participates in a spatial politics of inclusion and exclusion, of emphasizing hierarchies or of defining difference. The foundation of this years Director Project ‘Border Corssings’ was based on the question in how architecture, in the form of walls, buildings, communities, and infrastructure, stake its position in these debates. Director’s Project—the subject of which is ‘Border Crossings.’

ORPHEUM | CENTRE OF ROTTERDAM SPRING 2017 | STUDIO 5 | INSTRUCTOR: H. PIENKOSKA

The Swan Bridge elegantly tolerates a stream of cars to cross over the Mass River in downtown Rotterdam. Orpheum acts as a magnet that pulls the pedestrian pathway off the Bridge to converge into the buildingâ&#x20AC;&#x2122;s theatre core. These separate pathways are shaped in correspondence to centripetal force which allows for a reduced slope before piercing the buildingâ&#x20AC;&#x2122;s exterior layer. Entrance portals are formed at this threshold of exterior and interior space before expanding into a triple-story grand atrium. These pathways continue to spiral into one another to allow endless streams of multi-dimensional motion. They create elongated scenic courses of travel for both the physically capable and disabled whose constant movement also enforce dynamic lines of sight.

150 YEARS IN THE FUTURE| DIRECTORS PROJECT 2016

FALL 2016 | STUDIO 4 | INSTRUCTOR: GIANCARLO MONGONE

“What will Ottawa look like 150 years from now?” This was the prompt provided to students, by the School’s Director, at the start of the 2016 fall semester. I imagined a dystopian world where manmade microclimates form over the cities in protection of the surrounding dilapidated biosphere. Epidemic developments in technology allows for off-ground transportation while drones become the core sector concerning infrastructure construction and maintenance. Civilization believes nature has been conquered, however, neglected structures choke on vines seeking revenge.

CAMPUS PAVILION | FRAGMENTATION FALL 2016 | STUDIO 4 | INSTRUCTOR: GIANCARLO MONGONE

Visitors entering Carletonâ&#x20AC;&#x2122;s campus are currently greeted by a large empty field surrounded by a wall of trees. My entrance pavilion design creates an interesting structure, adding an element of admiration to the property, as onlookers view fragmented reflective shards poking above the tree line. The design language carries throughout the building as these large shards generate specific arranged interior spaces. Strategically placed windows extenuate these large elements while brightening the entrance atrium and creating controlled interior lighting for the art gallery and event space.

GROUND FLOOR

LONGITUDINAL SECTION

105 PRESTON STREET | TECHNICAL DRAWINGS 1000

00 K: 13 TBAC SE

Arcc Techs Association inc.

CARLETON UNIVERSITY 1125 COLONOL BY DRIVE OTTAWA, ON K1S 5B6

ROOM TAG

ROOM NAME 101

PROPERTY LINE EGRESS PATH 201

0 1360

GROUP MEMBERS 11 - ARCC 2203

DOOR TAG

FALL 2016 | ARCC 2203 | INSTRUCTOR: JAY SZE-LEON LIM 0 3450

ARCC Techs Association

DRAWING LEGEND

MICHAEL JAMIESON - 100963375 BRENT HAYNES - 100966965 DAGMAR IVANENKO - 100968160 TONY GUNKA - 100999717

STAIR TAG

17 R @ 176

0 1300

3000

0 1058 LD:

2600

TABLE OF CONTENTS

5466

LEVEL 2 ABOVE

BUILDING PLANS

A201

BUILDING ELEVATIONS

A301

BUILDING STAIR SECTIONS

6782

248 K: 12 AC TB SE

A101

Door Schedule

9590

1 1525

N TO ES PR

9 3049

Mark

1722

T EE STR

LEVEL 2 ABOVE

885 : 12 LD

00 K: 30 AC TB SE

001 002 003 101 102 103 104 107 108 201 202 203 204 301 302 303 304

T EE STR ET RS ME O S

Height 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134 2134

Width 914 914 1829 914 914 914 914 914 914 914 864 864 914 914 864 864 914

Fire Rating 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75 0.75

Level LEVEL 0 LEVEL 0 LEVEL 0 LEVEL 1 LEVEL 1 LEVEL 1 LEVEL 1 LEVEL 1 LEVEL 1 LEVEL 2 LEVEL 2 LEVEL 2 LEVEL 2 LEVEL 3 LEVEL 3 LEVEL 3 LEVEL 3

SITE PLAN 1 : 200

17 R @ 176 UP DN

2016-10-2016

DATE

STORAGE 001

TRAVEL=9.06m<25m

TRAVEL=5.6m<25m

MECHANICAL 002

WC 201

WC 102

OFFICE 100

17 R @ 176

OFFICE 200

WC 202

WC 103

TRAVEL=10m<25m

VESTIBULE 101

TRAVEL=7.7m<25m

NEW PERMIT DRAWINGS & DESIGN PROPOSAL FOR 105 PRESTON STREET AS PER JAY LIM

ATA

DESCRIPTION

CLIENT

PROFESSOR JAY LIM

TRAVEL=14.2m<25m

CLIENT ADDRESS

CARLETON UNIVERSITY 1125 COLONOL BY DRIVE OTTAWA, ON K1S 5B6

PROJECT

PRESTON OFFICES

TRAVEL=12.7m<25m UP

105 PRESTON STREET

17 R @ 176

LEVEL 0 1 : 200

LEVEL 1 EGRESS PLAN 1 : 200

TYPICAL EGRESS PLAN (LEVELS 2 & 3) 1 : 200

DRAWING

COVERPAGE

PROJECT NO.

PROJECT DATE

2016/10/05 ATA

DRAWN BY

GROUP

CHECKED BY

1 : 200

SCALE N DRAWING NO.

This group project mandated a set of technical drawings that met zoning requirements for an office building in Ottawa’s downtown core. A combined effort in reviewing zoning, set-back and height requirements were obtained from the City of Ottawa’s planning department. The project’s initial phase dealt with permit application and drawing sets, while the final phase involved a set of detail construction drawings. Please note: the drawings presented here are my individually completed components of the project.

A000

00 345

0 100

00 : 13 CK A B T SE

00 136

00 130

0 300

80 105 LD:

0 260

6 546

LEVEL 2 ABOVE

2 678

8 224 K: 1 AC TB SE 99 304

0 959

51 152

N TO ES PR

2 172 885 : 12 LD

000 K: 3 AC TB SE

T EE STR

LEVEL 2 ABOVE

TW E E TR S T SE R ME SO

COMMUNITY HOUSE | CCA DESIGN CHARRETTE FALL 2016 | STUDIO 4

The twenty-first Interuniversity Charrette invited young designers to reconsider Arctic villages, propose interventions in Northern settlements and surroundings, and help create livable communities simply and frugall. This charrette was completed over a single weekend with a group of 4 other members. The design of Community House originates from the assumption that we cannot dictate to a community what they want. As architects and non-residents we felt that we did not have the knowledge or contxtual experience to improve up the wealth of DIU solutions currently being created. Collaboration: -Ian Dayagbil -Eric Goldstein -Kristine Prochnau -Martin Trivieri

Site PlanSite Plan Site Commun C SiteSite PlanSite PlanPlan Site Plan Site Plan 1:1000 1:1000 1:1000

1:1000

Community Community House House

The design of Community The designHouse of Community House originates from originates the assumption from the thatassumption that we cannot dictate weto cannot a community dictate to a community what they want.what As architects they want. and As architects and non-residents we non-residents felt that we did we felt that we did not have the knowledge not have the or contexknowledge or contextual experiencetual to improve experience upon to improve upon the wealth of DIY the solutions wealth of currently DIY solutions currently being created. Typical being created. ‘architecture’ Typical ‘architecture’ designed for thedesigned North arefor “usualthe North are “usually based on satisfying ly based southerner’s on satisfying southerner’s needs in a ‘hostile’ needs environment”(Zin a ‘hostile’ environment”(ZN N rulo, 94). This isrulo, readily 94).apparent This is readily in apparent in the wealth of failed the wealth designsofprevalent failed designs prevalent N in northern communities. in northernFrom communities. the FromNthe matchbox house matchbox to the suburban house to the suburban layout, most designs layout,do most not designs actually do not actually We chose toWe focus chose on take the needs of take thethe community needs of the intocommunity into Stron consistent winds. consistent consideration, let consideration, alone to heart. letInalone to heart. Inin-between buildings in-between difficu b stead of attempting steadanother of attempting one sizeanother one size Community House is a shelter Housefrom is a shelter both the from natural, both and the natural, the spiritual. and the As the spiritual. wind is divertAs the wind is divertfits all housing design, fits all housing we chose design, to weCommunity chose to structure in an structure area that is insu an ed to create ed to createoutdoor a comfortable space, outdoor the formspace, becomes theaform sounding becomes board a sounding for the voice board of the for the community. voice of the community. focus on the spaces focusin-between. on the spaces The in-between. The a comfortable reational facilities reational to accomm facil The structure isThe open structure ended in is form openand ended in use. in form From and gathering in use. From placegathering to story telling placevenue to story the telling circular venue shape the circular shape negative spacesnegative carved by spaces buildings carved by buildings beside a small canal besidethat a sma flow to the needs bends of the to the people needs asofthey the arise. people The asemphasis they arise.isThe providing emphasis an enriching is providing community an enriching amenity community amenity exist as barren voids exist as used barren onlyvoids as usedbends only as pleasing. Having pleasing. it placed Hav at that fosters that fosters of place. ownership When of people place.have When thepeople opportunity have the andopportunity the means to and construct the means their to surroundconstruct their surroundtransitions fromtransitions place to place. from Filling place to place. Fillingownership people and activity. people and a and build aings sense and ofbuild place, a they senseare of more place,likely theyto areinnovate, more likely andtoinvest innovate, in a better and invest future. in Our a better hopefuture. is thatOur hope is that these spaces are these the cast spaces offsare of artic the cast ings offs of artic Community Community will be the House catalyst will to bereassembling the catalyst tothe reassembling voice of thethe north. voice of the north. life. Materials that life.currently Materialshave thatno currently have no House purpose, but arepurpose, filled with butpotential. are filled with potential. Wind RoseWind - Kang R

Our project aims Our project to takeaims one of tothe take one ofthat the Given 53 Milion L Given of diesel thatis 53consumed Milion L ofindiesel Nunavik is consumed per year, in Nunavik per year, how many barrels of diesel are used barrels in Kanglqsujuaq? of diesel are used in Kanglqsujuaq? most plentiful most andplentiful oppressive andscrap oppressive scrap how many materials – the materials oil barrel – the – and oil barrel trans- – and trans200L of diesel 200L of diesel form it into aform symbol it into of autonomy a symbol of autonomy Using data provided Using data provided for the community. for the community.

and our own research, and ourwe own have research, determined we have determined In Nunavik: In Nunavik: use use that on averagethat Nunavik on average ships approximately Nunavik ships approximately 12,090 265,000 12,090 265,000 265,000 barrels265,000 of oil perbarrels year. These of oil per barrels year. These barrels are either reused are foreither personal reused uses fororpersonal are dis- uses or are discarded and accumulated carded and over accumulated time. Although over time. Although 270 1 OnYear our design proposal our design has been proposal focused hason been focused on1 Year Average On Average Per Per one specific community, one specific thiscommunity, design can this alsodesign can also be used all overbe theused Nunavik all over region. the Nunavik By usingregion. By using commonly found commonly materialsfound in Nunavik materials we arin Nunavik we aren’t contributing en’t to contributing a larger carbon to afootprint. larger carbon footprint. Therefore in Therefore in It is a modest solution It is a modest to creating solution an outdoor to creating an outdoor use use Kangiqsujuaq Kangiqsujuaq flexible space that flexible is especially space that useful is especially in the useful in the 735 15,435 735 15,435 harsh winter months harshof winter the year. months of the year. To date, there are Toseveral date, there plans are inseveral motionplans to connect in motion Nunavik to connect through Nunavik its ownthrough autonomous its own power autonomous grid. Some power grid. Some plans include producing plans include much producing of the needed muchenergy of the needed throughenergy hydro electricity. through hydro This electricity. would be generated This would be generated through the plentiful through rivers thewithin plentiful therivers territory. within As the Nunavik territory. moves As Nunavik away from moves oil generated away from power oil generated all costs power asso- all costs associated to living go ciated down. to living Whengo communities down. When have communities greater access have to greater cheaper access energy to cheaper there areenergy larger there and more are larger and more plentiful opportunities plentifulfor opportunities economic growth for economic and thegrowth subsequent and the risesubsequent in the standard rise in of the living. standard While Commuof living. While Community House doesnity directly House not does dealdirectly with improving not deal with the access improving to energy, the access it does to reduce energy,the it does needreduce for it. Wind the need for it. Wind screens have been screens usedhave for centuries been used all for over centuries the world. all When over the orientated world. When correctly orientated wind screens correctly can wind reduce screens can reduce the cost of heating the and cost prevent of heating theand piling prevent up of the snow. piling As more up ofiterations snow. As more of Community iterationsHouse of Community are built,House they are built, they embrace the village embrace with the shelters, village while withironically shelters, while reducing ironically the cost reducing of heating the homes cost of heating using the homes very containusing the very containers the fuel arrived ers the in. fuel arrived in.

Frequency of

360

270

180

Site Plan Community ofCommunity Kangiqsujaqof Kangiqsujuaq

Site PlanPlan 1:1000

1:10000

Site Plan Community ofCommunity Kangiqsujaqof Kangiqsujuaq SiteSite PlanPlan 1:1000 Site Site Plan of Kangiqsujuaq of Kangiqsujuaq Plan SiteSite Community Plan ofCommunity Community Kangiqsujaq ofCommunity Kangiqsujaq SiteSite Plan Plan 1:10000 Site Plan 1:10000 1:1000 1:1000 1:1000

1:10000 1:10000

1:10000

N N N

Community Facilities 1:10,000

Community Facilities 1:10,000 Community Facilities 1:10,000

We chose to focus on Kangiqsujuaq due to being exposed to strong and We chose to focus on Kangiqsujuaq due to being exposed to strong and Strong winter gusts coming in from Hudson’s Bay make the and spaces consistent winds. We chose towinds. focus on Kangiqsujuaq We chose to coming focus due to on being Kangiqsujuaq exposed due to strong to andexposed to strong consistent Strong winter gusts in from Hudson’s Bay make thebeing spaces Community Facilities 1:10,000

in-between buildings difficult towinds. be navigate. Within Kangiqsujuaq, decided place our in-between buildings to be navigate. Within we decided place our weBay consistent winds. difficult consistent Strong winter gusts coming Strong in Kangiqsujuaq, from winter Hudson’s gusts Bay coming make the intofrom spaces Hudson’s make the to spaces l.is Asdivertthe wind is divertstructurein inbuildings an that is surrounded by community facilities schools, churches, and in-between difficult in-between toisbesurrounded navigate. buildings Within difficult Kangiqsujuaq, to be like navigate. we decided Within to Kangiqsujuaq, place ourrecwe decided to place ourand recdoice structure anarea area that by community facilities like schools, churches, of the community. reational accommodate learning andisstorytelling thecommunity site. churches, The site also atural, .mmunity. As the wind andisthe divertspiritual. Asstructure the windinfacilities isan divertareato that surrounded structurefor inby ancommunity area that facilities surrounded likeatschools, by facilities andresides like schools, churches, and recnue thethe circular shape reational facilities toisaccommodate for learning and storytelling atrecthe site. The site also resides es ice a sounding of community. board for the voice of the community. beside afacilities small canal that flows through most to the village that makes the site more aesthetically reational to accommodate reational forfacilities learning and accommodate storytelling for at the learning site. The and site storytelling also resides at the site. The site also resides community amenity ar shape ue ring the place circular to story shape telling venue the circular shape pleasing. Having it placed at an urban node in the community allows for greater proximity to beside a small canal that flows through most the village that makes the site more aesthetically beside a small canal that flows beside through a small most canal the village that flows that through makes the most site the more village aesthetically that makes the site more aesthetically onstruct their surroundommunity is is providing amenity an enriching community amenity menity people activity. ture. Our hope that to construct pleasing. Having it placed atpleasing. an urban Having node initthe placed community at an in urban allows node for in greater the community proximity to allowsfor for greater proximity to nstruct ortunity their and surroundtheismeans theirand surroundpleasing. Having it placed at an urban node the community allows greater proximity to surroundpeople andisactivity. people and activity. ure. vate,Our andhope invest is in that a better future. Our hope that people andRose activity. Wind - Kangiqsujuaq e is that voice of the north. navik per year, Wind Rose -Frequency Kangiqsujuaq Wind Rose - Kangiqsujuaq Wind Speed aq? of Winds

Wind Rose - Kangiqsujuaq

3vik Milion per year, L of diesel is consumed in Nunavik per year, q? arrels of diesel are used in Kanglqsujuaq?

Frequency360 of Winds

Frequency of Winds

Wind Speed 360

360

Frequency of Winds

of diesel

In 265,000 Nunavik:

265,000

12,090

265,000

use

Therefore 15,435in Kangiqsujuaq

15,435

90 270

270

90 270

Per

265,000

735 use 735Per

360

use

270

Per On Average Per

Year

360

Wind Speed

360

use

12,090use 12,090

Wind Speed

270use 735

90 270

15,435

ous power grid. Some uld be generated us ik through power grid. its own Some autonomous power grid. Some ed power all costs assogh ld be hydro generated electricity. This would be generated ere are larger and more moves d power away all costs from assooil generated power all costs assoiving. While Commuaccess e are larger to cheaper and more energy there are larger and more

180 180

90 180

180

Community House

The distinctive shape of Community House was develope the wind. Strong wind conditions are a feature of daily life in tion. The form directs the wind around its curved façade crea side. This is where the majority of activity takes place. Howev Community House is built using rea The distinctive shape of Community House was developed through rigorous testing of forms against materials that the people who use it the wind. Strong wind conditions are a feature of daily life in Kangiqsujuaq, and can come from any direcupon the site, constantly shifting topography create a drifting shelter is constructed thro tion. The form directs the wind around its curved façade creating a comfortable pocket of air on the leeward selves. The of stacking and wedging. Shims creat side. This is where the majority of activity takes place. However, as the wind picks up and deposits snow The distinctive shape of Community House was developed through rigorous t comes a secondary venue. aredeveloped placed on either side of rigorous base barre upon the site, constantly shifting topography createThe a drifting echo of the shelterofacross the site that bedistinctive shape Community House was through comes a secondary venue.

the wind. Strong wind conditions are a feature of daily life in Kangiqsujuaq, and ca

form foundation. Alland the b the wind. Strong wind are aaround feature ofand daily lifea strong increating Kangiqsujuaq, tion. The formconditions directs the wind its curved façade a comfortable po with soil or scrap material that will not side. This isthe where the around majority of takes place.creating However, a ascomfortable the wind picksp tion. The form directs wind itsactivity curved façade barrels are heaviest on the top, to prev upon the site, constantly create a drifting echo of the shelter a side. This is where the majority of shifting activitytopography takes place. as the allowsHowever, for an economy of wind ballastpicks mate comes a secondary venue. upon the site, constantly shifting topography create a drifting echo of the shelter because the top levels will weight the scale of the shelter dwarfs the human comes a secondary venue.

ed, the graduated stacking allows for When finished, the stacking can also s beyond.

Velocity (m/s)

19.504 16.891 13.792 9.752 0

Velocity (m/s)

19.504 Sources

16.891 Zrudlo, Leo. “The Design of Climate-Adapted Ar Velocity (m/s) Designed for13.792 Winter, edited by Jorma Manty and Helsinki: Building Book Ltd., 1988 19.504 9.752 “Frequently Asked Questions.” USA Energy Info 0 16.891 13, 2016. https://www.eia.gov/tools/faqs/faq.cfm

Velocity (m/s)

19.504 16.891

Mason, Sandra Mason. “Essential Elements for W 13.792 tensions School. Accessed November 13, 2016. edu/cfiv/homeowners/081208.html

9.752

13.792

Nunavik Regional Board of Health and Social Se Nunavik: 0 Demographic and Socioeconomic Con ment of Quebec, 2011. Accessed November 12, qc.ca/sites/default/files/3.4.4_Portrait%20de%20 Nunavik%20-%20Conditions%20d%C3%A9mog cio%C3%A9conomiques%20VA.pdf

9.752

George, Jane. “Nunavik wants to join Quebec Po Quebec is … “ Nunatsiaq Online. July 20, 2011. h ca/stories/article/20889_nunavik_wants_to_join

Moorhouse, Andy. “Perspectives On Partnership North”. Presentation at the Makivik Corporation, November 12, 2016. http://www.centrallia.com/w dy-Moorhouse.pdf

“2014-2023 Supply Plan for The Autonomous G http://publicsde.regie-energie.qc.ca/projets/232 ROE%C3%89-0014-Trad-Doc-2014_03_13.pdf

Community House is built using readily available, reus ed through rigorous testing of forms against materials that the people who use it can assemble them Kangiqsujuaq, and can come from any direcselves. The shelter is constructed through a simple metho ating a comfortable ofHouse air on the leeward Community House is built using readily available, reused The distinctive shapepocket of Community was developed through rigorous testing of forms against materials that the people who use it can assemble themthe wind. Strong wind conditions are a feature of daily life in Kangiqsujuaq, and can come from any direcof stacking and wedging. Shims created frommethod scrap mater ver, as the wind picks up and deposits snow Community House is built using readily available, as developed through testing forms against selves. The shelter is constructed through a simplereused tion. The form directs rigorous the wind around its curvedof façade creating a comfortable pocket of air on the leeward Stru of stacking and wedging. Shims created from scrap material side. This is where the majority of activity takes place. However, as the wind picks up and deposits snow are placed on either side of base barrels to prevent rolling gf daily echolifeof the shelter across the site that bematerials that the people who use it can assemble themStructural Principle in Kangiqsujuaq, and can come from any direcare placed on either side of base barrels to prevent rolling upon the site, constantly shifting topography create a drifting echo of the shelter across the site that beselves. Theashelter is constructed through a barrels simple method and form a strong foundation. the are weighted comes a secondary venue. House dtesting façade creating a comfortable pocket of air onavailable, the leeward Community is built using readily reused of forms against and form strong foundation. All Allthe barrels are weighted Community House is built using readily available, reused santesting of forms against with soil or scrap material that will not decompose. The materials that the people who use it can assemble themcome from any direcof stacking and wedging. Shims created from scrap material lace. However, as the wind picks up and deposits snow that the people who use itmethod can assemble can come from any direcare heaviest on thewill top, tonot prevent lift off. ThisStructural also withthemsoil or scrapbarrels material that decompose. The selves. materials The shelter is constructed through a simple ocket of air on the leeward Princi economy of ballastto material in the lower levels aremethod placed on eitherallows sideforofanbase barrels prevent rolling eate a deposits drifting echo of theselves. shelter the sitefrom that beof stacking and wedging. Shims created scrap material up and Theacross shelter is constructed through a simple pocket of air onsnow the leeward Structural Principle barrels are heaviest on the top, to prevent lift off. This also because the top levels will weight them down. While the are placed on either side of base barrels to prevent rolling across the site that beof stacking and wedging. Shims created from scrap material s up and deposits snow and form a strong All the barrels are weighted Structural Principlefoundation. scale of the shelter dwarfs the human form when completa strong foundation. All the barrels are weighted are placed on either side of base barrels to prevent rolling r across the site that be- and form allows an economy of will ballast material inThe the lower leve ed, the graduated stacking for an ease of assembly. with soil or scrap material that will not decompose. The with soilfor or scrap material that not allows decompose. andheaviest form aon strong foundation. are weighted When finished, the stacking can also serve as seating and barrels are the top, to prevent liftAll off.the Thisbarrels also barrels heaviest on the top, preventthem lift off. down. This alsoWhile the because top levels willtoweight with soil or scrap material that willlower not decompose. The arethe beyond. allows for an economy of ballast material in the levels because the topare levels will weight down. the lift off. allows barrels heaviest onthem the top, toWhile prevent This also for an economy of ballast material in the lower levels complet scale of the shelter dwarfs the human form when Velocity (m/s) scale ofallows the shelter the human when completfor dwarfs an economy of form ballast material in the lower levels the top levels will weight them down. While the because ed, the graduated stacking allows for an ease of assembly. ed, the because the top levels will19.504 weight them down. While the graduated stacking allows for an ease of assembly When finished, the stacking can also serve as seating and scale of the shelter dwarfs the human form when complet16.891 scale of the shelter dwarfs the human form when completbeyond. When stacking as seating and ed, the finished, graduated the stacking allows can for analso easeserve of assembly. ed, the graduated stacking13.792 allows for an ease of assembly. When finished, the stacking can also serve as seating andfinished, the stacking beyond. 9.752 When can also serve as seating and Sources

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Sources

Mason, Sandra Mason. “Essential Elements for Wind.” University of Illinois Extensions School. Accessed November 13, 2016. http://web.extension.illinois. edu/cfiv/homeowners/081208.html

Zrudlo, Leo. “The Design of Climate-Adapted Arctic Settlements.” In Cities Designed for Winter, edited by Jorma Manty and Norman Pressman, 86-105. Helsinki: Building Book Ltd., 1988 “Frequently Asked Questions.” USA Energy Information. Accessed November 13, 2016.Sources https://www.eia.gov/tools/faqs/faq.cfm?id=667&t=8 Mason, Sandra Mason. “Essential Elements for Wind.” University of Illinois ExZrudlo,Accessed Leo. “The Design13, of2016. Climate-Adapted Arctic Settlements.” In Cities tensions School. November http://web.extension.illinois. Designed for Winter, edited by Jorma Manty and Norman Pressman, 86-105. edu/cfiv/homeowners/081208.html

Nunavik Regional Board of Health and Social Services. Health Profile of Nunavik: Demographic and Socioeconomic Conditions 2011. Government of Quebec, 2011. Accessed November 12, 2016. http://nrbhss.gouv. qc.ca/sites/default/files/3.4.4_Portrait%20de%20sant%C3%A9%20du%20 Nunavik%20-%20Conditions%20d%C3%A9mographiques%20et%20socio%C3%A9conomiques%20VA.pdf

Sources Helsinki: Building Book Ltd., 1988 George, Jane. “Nunavik wants to join Quebec Power Grid: Plan Nunavik: Nunavik Regional Board of Health and Social Services. Health Profile of Quebec is … “ Nunatsiaq Online. July 20, 2011. http://www.nunatsiaqonline. Nunavik: Demographic Socioeconomic Conditions 2011. Information. Govern“Frequentlyand Asked Questions.” USA Energy Accessed November Zrudlo, Leo. “The Design ca/stories/article/20889_nunavik_wants_to_join_quebecs_power_grid of Climate-Adapted Arctic Settlements.” In Cities ment of Quebec, 2011. Accessed November 12, 2016. http://nrbhss.gouv. 13, 2016. https://www.eia.gov/tools/faqs/faq.cfm?id=667&t=8 qc.ca/sites/default/files/3.4.4_Portrait%20de%20sant%C3%A9%20du%20 Moorhouse, Andy. “Perspectives On Partnerships Opportunities in the Designed for Winter, edited by Jorma Manty and Norman and Pressman, 86-105. Nunavik%20-%20Conditions%20d%C3%A9mographiques%20et%20soNorth”. Presentation at the Makivik Corporation, Kuujjuaq, Quebec. Accessed Mason, Sandra Mason. “Essential Elements for Wind.” University of IllinoisBuilding ExHelsinki: Book Ltd., 1988 cio%C3%A9conomiques%20VA.pdf November 12, 2016. http://www.centrallia.com/wp-content/uploads/Antensions School. Accessed November 13, 2016. http://web.extension.illinois. dy-Moorhouse.pdf George, Jane. “Nunavik wants to join Quebec Power Grid: Plan Nunavik: edu/cfiv/homeowners/081208.html “Frequently Asked Questions.” USA Energy Information. Accessed November Quebec is … “ Nunatsiaq Online. July 20, 2011. http://www.nunatsiaqonline. “2014-2023 Supply Plan for The Autonomous Grids.” November 01, 2013. ca/stories/article/20889_nunavik_wants_to_join_quebecs_power_grid http://publicsde.regie-energie.qc.ca/projets/232/DocPrj/R-3864-2013-C2016. Nunavik Regional Board of Health and Social Services. Health13, Profile of https://www.eia.gov/tools/faqs/faq.cfm?id=667&t=8 ROE%C3%89-0014-Trad-Doc-2014_03_13.pdf Nunavik: Demographic and Socioeconomic Conditions Moorhouse, Andy. “Perspectives On Partnerships and Opportunities in the 2011. GovernNorth”. Presentation at the Makivik Corporation, Quebec. Accessed Mason, Sandra Mason. “Essential Elements for Wind.” University ofCHAR00024 Illinois Exment of Quebec, 2011. AccessedKuujjuaq, November 12, 2016. http://nrbhss.gouv. November 12, 2016. http://www.centrallia.com/wp-content/uploads/Anqc.ca/sites/default/files/3.4.4_Portrait%20de%20sant%C3%A9%20du%20 tensions School. Accessed November 13, 2016. http://web.extension.illinois. dy-Moorhouse.pdf

Sources

Zrudlo, Leo. “The Design of Climate-Adapted Arctic Settlements.” In Citie Designed for Winter, edited by Jorma Manty and Norman Pressman, 86-1 Helsinki: Building Book Ltd., 1988

“Frequently Asked Questions.” USA Energy Information. Accessed Novem 13, 2016. https://www.eia.gov/tools/faqs/faq.cfm?id=667&t=8

Nunavik%20-%20Conditions%20d%C3%A9mographiques%20et%20so-

edu/cfiv/homeowners/081208.html

Mason, Sandra Mason. “Essential Elements for Wind.” University of Illinois of Health and Social Services. Health Profile of tensionsRegional School.Board Accessed November 13, 2016. http://web.extension.illin

“2014-2023 Supply Plan for The Autonomous Grids.” November 01, 2013. cio%C3%A9conomiques%20VA.pdf http://publicsde.regie-energie.qc.ca/projets/232/DocPrj/R-3864-2013-CROE%C3%89-0014-Trad-Doc-2014_03_13.pdf George, Jane. “Nunavik wants to join Quebec Power Grid: PlanNunavik Nunavik:

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