1
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Architecture Portfolio farah manley 500 St. Clair Ave W, Toronto ON M6C1A8 647 686 8760 farahkbr@gmail.com
Curriculum vitae
EDUCATION University of Toronto, Toronto, ON Master of Architecture (M.Arch.) 2015 Ryerson University, Toronto, ON Bachelor of Architectural Science (B.Arch.Sci.) 2010
WORK EXPERIENCE 2+
Thomas Payne Architect, Toronto, ON 688 Richmond Street West #202, Toronto, ON M6J 1C5 May 2013-Present Position: Junior Designer Hariri Pontarini Architects 602 King Street West, Toronto ON M5V1M6 December 2010 - 2012 Position: High-Rise Team Member/ Junior Designer
INVOLVEMENTS + AWARDS
University of Toronto, John H. Daniels Faculty of A路L路D. Architectural Representation 1. (F.Kabir, Guest Reviewer) December 2014 325 Magazine, Ryerson University 3rd year (2009) Student Academic Publication Position: Graphics and Layout American Institute of Architecture Students (AIAS) Contributing member 2007-2009 Site Plan Award 2006, Ryerson University 1st year (2007) Award given for outstanding design and planning development
APPLICATION KNOWLEDGE AutoCAD 2014 / AutoCAD 3D Modeling, 3ds Max 2012, Revit 2013, Google Sketchup Pro 2013, Adobe Creative Suite 6 (Photoshop, Illustrator + InDesign), Microsoft Office 2013 (Outlook, Word, Excel, PowerPoint, etc), Freehand
Contents 2006-2014
4-9 10-13 14-17 18-19 20-21 22-25 26-29 30-35 36-39 40-43 44-47 48 49 50-51
Common Ground (grad thesis) Double ++ The Urban Pillow Dufferin Grove Community Common Dufferin Redux Shangri-La Toronto One Bloor Sadr City (thesis) Hydro-pods Henry Moore Museum Infill Housing Rockefeller Center Proposal Aggregate Rehabilitation [OSSGA] Towards Illumination
ge 4+
ge
:
urban Edge
common ground:
Re-imagining the Suburban Edge 4th YEAR thesis 2014 Instructor: benjamin dillenburger
Georgina Island 33
Georgina
B r adford West Gwillimbury
East Gwillimbury
Uxbridge
New Tecumseth Newmarket
Mono
WhitchurchStouffville
King
Pickering d Richmon Hill
The suburbs were developed to fulfill our desire for our very own piece of land. The suburbs provide families with detached single-family homes in open green space with room to grow and play, all while removed from the bustle of the noisy city. However for the suburbs to be effective they require a relationship and peripheral proximity to the urban core. The lure and popularity of suburban living has sprawled the suburbs further and further away from the city and thus the quality of life they were designed to improve is no longer the case. The traditions, character, and ideals of suburban living now come with sacrifice.
Markham Ajax
O r angeville Caledon Vaughan
Suburban sprawl has created a need for denser suburbs. Current density strategies neglect the detached single-family home therefore a new typology is required. However densification is only a tool, not a design method. In order to maintain the individual identity, personal ownership and communal space that exits in the suburbs, a representation and connective element of suburban living needs to be introduced into this densification. By exploring the lawn as a representative of the suburban character and using the lawn as a design tool paired with densification, can a new residential typology be created? One that celebrates the traditions and character of suburban living while locating itself closer to the city.
Brampton B r ampton
Newmarket
mid/highrise (active core) low-rise (transit suburb) detached (auto suburb)
Halton Hills
SUBURBAN SPRAWL
Milton
5
+
1. every house on its property must touch another
1. every house on its property must touch another
Family Barbeques Watering the grass Neighbours walking over to visit Mowing the lawn
By exploring the lawn as a representative of the suburban character and using the l aw n a s a d e s i g n t o o l , pa i r e d with densification, can a new residential typology be created? One that celebrates the traditions and character of suburban living while locating itself closer to the active core.
If owners lawn touches it own house, one wall must have glazing
If a neighbors lawn touches your wall, that portion of wall must be solid
?
If owners lawn is on both sides of their house, there should be translucent glazing/large openings (must have view from both side)
By exploring the lawn as a representative of the suburban character and using the l aw n a s a d e s i g n t o o l , pa i r e d with densification, can a new residential typology be created? One that celebrates the traditions and character of suburban living while locating itself closer to the active core.
If the lawn is on If the both lawn side, is the on both lawn side, the lawn must continue must through continue both sides through of the both house sides of the house
?
6+ Primitive gable house
BOUNDARIES P r i v a t e
v s
P u b l i c
boundary studies
BOUNDARIES F e n c e
+
H e d g e
BOUNDARIES D r i v e w a y s +
c a r
TION o
w
n
SITE SELECTION B
r
e
a
k
d
o
w
n
MIMICO
D E N S I T Y B
r
e
a
k
d
o
w
n
TYPICAL LOT AREA - 33,600m 2 79 houses 0.5m
6.5m
3m
2.5m
36
1.25m
7
84m
7.25m
3.5m
2.5m
10m
36
7
6m
+
32m
368m
11.5m
SITE SELECTION B
r
e
a
k
d
o
w
10.5m
n 4m
18m
6.5m
INDIv. LOT AREA - 429m2
i
0.5m
6.5m
3m
2.5m
1.25m
7
7.25m
3.5m
i
2.5m
10m
city/public - 25.55m 2 (5.95%) house - 74.75m 2 (17.4%) garage - 29.25m 2 (6.8%) driveway - 82.15m 2 (19.15%)
6m 32m
front lawn - 70m 2 (16.3%) side lawn - 5.75m 2 (1.35%) rear lawn - 141.85m 2 (33%)
11.5m
10.5m
ii city/public - 39m 2 (10.15%) house - 76.13m 2 (19.8%) garage - 29m 2 (7.6%) driveway - 70m 2 (18%)
4m
18m
6.5m
INDIv. LOT AREA - 429m2
i
front lawn - 51m 2 (13.3%) side lawn - 13.13m 2 (3.4%) rear lawn - 105m 2 (27.5%)
INDIv. LOT AREA - 384m 2
ii
TYPICAL MIMICO LOT
overall site: houses - 5,915m 2 (17.6%) lawn - 16,854m 2 (50.2%) garage - 2310m 2 (6.9%) driveway - 6405m 2 (19%) public - 2113m 2 (6.3%)
INDIv. LOT AREA - 384m 2
ii
8+
roof plan
ground condition
interior perspective
shared lawn
community park
backyard
9
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10+
double ++
Unrepresentative Villa 4th YEAR grad project 2014 Instructor: benjamin dillenburger
11
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CEILING FLOOR My approach to xreconciling the dilemma between minimalist and maximalist thinking was to focus on the spatial consciousness created by these opposite theories. My study maintains the basic principles of minimalism where elements are simplified in an attempt to display the purity and truth of the design. I focused this design theory on the exterior of my study, forcing the visitor to search for an understanding in the forms while at the same disengaging themselves with the normal and recognizing what they believe to be the elements and architectural language carried throughout the interior. Nature vs. Man-Made
-light tunnels into each space -integrated pathway system -intersecting rooms have common walls (allows space to be open and multi-leveled + more light enters each space)
My shift in thinking happens inside the building, where the expected changes and the visitors are forced to re-engage with their altered environment. By inflating the content and program of the house on the interior, without identifying itself on the exterior, the inhabitant now experiences a new meaning within the house. In an effort to conceal this additional program, to create a camouflage - I utilized below grade levels, allowing the house to open up and provide new spaces where one may not expect them.
LAPLACE
12+
SMOOTHING
13
+
BEd - UNIT - PROCESS
NAP
vs.
DEEP SLEEP
Increases alertness. When your eyelids are almost too heavy to keep open, you’re not doing your best work. Make time for a nap and then go back at it. A NASA study found that a 40 minute nap increases alertness by 100%. Other studies have found that a 20 minute nap is more effective than either 200 mg of caffeine or a bout of exercise. Studies have shown that if you break up your day with a nap, you will be as alert and energetic for the second part of your day as you were for the first. According to Dr. Mednick, the perfect nap for everyone is 90 minutes long and taken between 1 and 3 in the afternoon. At this time, and at this length, your nap will consist of the optimal balance of all the different sleep stages. The ratio of the sleep stages in this nap exactly mirror that of nocturnal sleep. 1. Keeps Our Heart Healthy 2. Reduces Stress 3. Reduces Chronic Inflammation 4. Makes Us More Active 5. Boosts Memory 6. Can Help Us Lose Weight
7. Makes Us Smarter 8. Reduces Risk of Depression 9. Helps Our Body Replenish
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INSPIRATION / CASE STUDIES
14+ CROSS SECTION 1/4”= 1’
8
PLAN 1/2” = 1’
PERSPECTIVE
the urban pillow dormitory
Spadina + College, Toronto 3rd YEAR grad project 2013 Instructor: Natalie Fizer
SECTION 1/2” = 1’
POSTURE/MOvEMENT - therapy - SLEEP Fetal The Fetal Position, lying curled on one side with legs bent, was the most popular sleep position amongst the men and women surveyed. According to the study, those who preferred this position are described as presenting a tough exterior, but are often shy and sensitive under the surface. They also may take some time to warm up to new people, but ultimately relax and become more social. Log The Log Position, lying on your side with legs straight and both arms resting at your sides, was the second most popular amongst study participants. People who chose this nighttime sleep stance were reported to be social, easy-going and trusting in their daily lives, though sometimes prone to gullibility.
Artificial Topography / Ryumei Fujiki
15 min INTERVALS
0-1
Yearner The Yearner is one who sleeps on their side with both arms stretched out in front of them. Thirteen per cent of people sur-
Freefall Freefallers like to sleep on their stomachs with heads turned to the side and arms curled near their pillow. They identified as being sociable and brash, though inwardly nervous and often sensitive to criticism. Starfish The Starfish Position was the least popular amongst those with a preference. Starfish sleepers lie on their backs with legs sprawled and arms stretched up near the head, and were reported to make friendship a priority. They dislike being the centre of attention, instead offering to listen to the problems of others and go out of their way to offer assistance to those in need.
FETAL 41%
1-2
0-1
veyed chose this as their favoured sleep position, and identified themselves as having open personalities, but were sometimes prone to suspicion and cynicism. Yearners are also described as slow decision makers, but once the choice is made they stick to it. Soldier The Soldier Position, lying on your back with both arms straight at your sides. Character traits for those who prefer this position reflect their disciplined namesake, with sleepers identifying themselves as people who set high expectations for themselves and others, and exhibit a quiet and reserved nature.
2-3
1-2
3-4
2-3
3-4
LOG 15%
YEARNER 13%
4-5
5-6
4-5
5-6
SOLDIER 8%
STARFISH 5%
6-7
6-7
7-8
1
2
3
4
1
2
3
4
5
6
7
8
HOURS OF SLEEP 16
% REM/ SLEEP
12
50 40 30
8
20
4
10
0
INFANTS TIME ASLEEP IN HOURS
CHILDREN
ADULTS
INFANTS
CHILDREN
70-85 years
ADULTS
SLEEPING DURING THE NIGHT
12
SLEEPING DURING THE DAY
9
15
+
6 3 0 1
WKS
1
3
6
9
1
1.5
2
3
4
MONTHS
5
6
7
8
9
10
11
12
13
14
15
16
17
YEARS
GOOD: SLEEPING ON THE BACK Prevents neck and back pain Reduces acid reflux Minimizes wrinkles BAD: snoring
OK: SLEEPING ON THE SIDE Reduces snoring Reduces acid reflux Useful during pregnancy BAD: for face and breasts
BAD: FETAL POSITION Useful during pregnancy Most common position BAD: increases arthritic pain Premature facial wrinkles
AVOID: SLEEPING ON THE STOMACH Difficult to maintain a neutral spine position Puts pressure on joints and muscles Constant incorrect head position may lead to aching
of my original Bed/Unit study effect on proper sleep. I studied to create negative forms for my derstanding on the importance e researched benefits of proper thesis injects different levels of d for the different stages of rest.
d to the City, the building travels st stages of rest will occur. With blic have a place they can travel
50-70 years
33-45 years
19-30 years
14-18 years
10-13 years
5-9 years
3-5 years
2-3 years
6-23 months
1-15 days
70-85 years
50-70 years
33-45 years
19-30 years
14-18 years
10-13 years
5-9 years
3-5 years
2-3 years
6-23 months
3-5 months
1-15 days
0 3-5 months
TOTAL SLEEP IN HOURS
CENTRAL PARK
atterns I studied throughout my eate both movement and light creates ever changing shadows he time and passing of the day. erior elevation create an urban .
DEEP SLEEP
ANCIENT DARA MARDIN
EGG CONCEPT - MAT DORMITORIES
CARPENTER ANT
NAP
SLOTH CONCEPT - HANGING NAPPING PODS - VISUAL CURIOSITY
SLOTH
WAKEFULNESS SLOTH CONCEPT || - SLOW TRAVEL EXPERIENCE INDY CIVIC PLAZA
The initial concept of my building was a continuation of my original Bed/Unit study where I analyzed both posture and movement and their effect on proper sleep. I studied different recommended sleep positions and ergonomics to create negative forms for my sleep units. Further into my sleep analysis came an understanding on the importance of napping and ‘the body at rest’. I looked to apply the researched benefits of proper rest - sleep and napping, into my building design. My thesis injects different levels of rest facilities making the entire building a space designed for the different stages of rest.
18
c
b
2 3
1
a
a
9
4
11
5
6
10 7
12
LEGEND LEGEND 1 MAIN ENTRANCE 2 LOBBY/RECEPTION 3 LOCKERS 4 W/C 5 CAFE ENTRANCE 6 CAFE 7 INFORMAL STAGE
LEGEND
9 NAP PODS
11 STUDY PODS
10 STUDY/PILLOW SPACE
12 POWER-NAP PODS
8 OUTDOOR SEAT/LOUNGE
c
8
NAP LEVEL 3/32” = 1’ - 0”
STUDY LEVEL 3/32” = 1’ - 0”
b
GROUND LEVEL 3/32” = 1’ - 0”
18
19 17
13
LEGEND
21
15
19 KITCHEN 20 CAFETERIA/STUDY 21 LOUNGE
16
LEGEND LEGEND
15 AUDITORIUM 16 CLASSROOMS 17 ADMINISTRATION 18 MEETING ROOMS
13 W/C 14 TERRACE
20
14
KITCHEN LEVEL 3/32” = 1’ - 0”
CLASSROOM LEVEL 3/32” = 1’ - 0”
TERRACE LEVEL 3/32” = 1’ - 0”
16+ 22
DORM LOWER LEVEL 3/32” = 1’ - 0”
b-b EAST SECTION 3/32” = 1’ - 0”
DORM MID LEVEL 3/32” = 1’ - 0”
DORM UPPER LEVEL 3/32” = 1’ - 0”
c-c WEST SECTION 3/32” = 1’ - 0”
With the ‘awake’ located on the ground floor – connected to the City, the building travels upwards to the most personal spaces where the deepest stages of rest will occur. With the inclusion of the rooftop terrace, the residents and public have a place they can travel upwards to and be rewarded.
17
+
E
COLLEG
DUFFER
Alvaro Quispe & Farah Kabir IN
of meaning within literature and architecture. As a word, it’s defined as “a social group of any size whose members reside in a specific locality, share government, and often have a common culture.” With this consideration of common entities sharing spaces or ideologies, arc2014YS Comprehensive Building Project_CC4 | M.Arch John H. Daniels A ·L ·D | University of Toronto | Instructor: Maria Denegri | 04.11.2013 our -design thesis was formed: A division of majorSynthesis programmatic CITY OF TORONTO DUFFERIN STREET AND COLLEGE STREET WEST building units closely attached or adjacent to one another altogether achieving unity in the context of a large public park space.
dufferin grove community common
DUFFERIN MALL + DUFFERIN GROVE PARK
In the preliminary stages of our design, the thought of unifying buildings needed a coherent logic with the required program. In order ARCHITECTURAL RATIONALE
R
to compliment both architectural idea and design, our team decided
BLOO
YONGE
EGE
COLL
ERIN DUFF
The interpretation of ‘community’ carries a significant to distinguish three major program spacesamount and use them as main of meaningentities within literature As a word, it’sthe defined on site.and Witharchitecture. careful consideration, elected programs were as “a socialasgroup of any sizereception, whose members reside in gym, a specific follows: main multipurpose and multipurpose hall. locality, share government, and often have a common culture.” With As a planning strategy, the three programs were spread diagonally this consideration of common entities sharing spaces or ideologies, of Dufferin Street and Dufferin Park Avenue, in our design from thesisthe wasintersection formed: A division of major programmatic sequential geometries of rectilinear tapered shapes. In essence, CITY OF TORONTO the building units closely attached or adjacent to one another altogether building a sequence significant programs for users to achieving unity in thechoreographs context of a large public parkofspace.
DUFFERIN STREET AND COLLEGE STREET WEST
DUFFERIN MALL + DUFFERIN GROVE PARK
experience and enjoy from beginning to end. For instance, the entrance In the preliminary stages of our design, unifyingatrium, mezzanine, carries substantial space withtheitsthought doubleofheight buildings needed a coherent logic with the required program. In order and transparent walls in relation to its exterior surroundings. Moving to compliment both architectural idea and design, our team decided forward, users will encounter the connected gym space that exposes to distinguish three major program spaces and use them as main its structure glulam, steel, and skylights. to the core, entities on site. With carefulofconsideration, the elected programsContinuing were where all buildings hug the exterior skate park,hall. farmers market, and as follows: main reception, multipurpose gym, and multipurpose As a planning strategy, threewill programs spread soccer fieldthe users be ablewere to utilize fulldiagonally recreation in all directions. from the intersection of Dufferin Street andcompletes Dufferin Parkthe Avenue, in series of active Finally, the south building previous sequential geometries rectilinear In essence, programs ofwith more tapered passiveshapes. programs, suchthe as the meeting hall building choreographs a sequence of significant programs for users to anchored with an adjacent outdoor theatre for multi functional uses experience and enjoy from beginning to end. For instance, the entrance for assemblies, parties, and much more. While the building quietly carries substantial space with its double height atrium, mezzanine, presents as the lead character in the story, and transparent walls itself in relation to its exterior surroundings. Movingsubtly orchestrating thewill program, thethebuilding also thethat duality of serving as a stage forward, users encounter connected gymhas space exposes its structureorofbackdrop. glulam, steel, skylights. Continuing thecommunity core, Theandnew building allows tothe to flow and where all buildings hug the skate park, farmersforcing market,itself and on the public. experience theexterior park naturally without soccer field users will be able to utilize full recreation in all directions. Finally, the south building completes the previous series of active By carrying forth the literal significance of community, where programs with more passive programs, such as the meeting hall common entities sharetheatre spaces unified,uses our design thesis was anchored with an adjacent outdoor for and multibe functional established. With the more. strategy to the build three quietly major cohesive building for assemblies, parties, and much While building entities creating interior spaces, and shaping new presents itself as theon leadsite, character in theunique story, subtly orchestrating the program, the building also spaces has the duality of serving as atostage outdoor program for all public users utilize to the fullest, the or backdrop. TheDufferin new building the community to flow new Groveallows Community Centre not only and carries a considerable experience amount the park naturally without forcing itself on the public. of literal expression, but an architectural one as well. By carrying forth the literal significance of community, where common entities share spaces and be unified, our design thesis was established.PARTI With the strategy to build three major cohesive building entities on site, creating unique interior spaces, and shaping new outdoor program spaces for all public users to utilize to the fullest, the new Dufferin Grove Community Centre not only carries a considerable amount of literal expression, but an architectural one as well.
LOUNGE GYM
PARTI
HALL
GROUND FLOOR PLAN
1:2
SECOND FLOOR PLAN
1:2
LOUNGE COMMON ENTITIES SHARING SPACE / COMMON GROUNDS
GYM
SITE PLAN
1:500
HALL
LOUNGE
COMMON ENTITIES SHARING SPACE / COMMON GROUNDS
SITE PLAN
1:500
GYM
18+
LOUNGE
HALL
GYM HALL
MAJOR PROGRAM ENTITIES
MAJOR PROGRAM ENTITIES
LOUNGE GYM
LOUNGE
HALL
GYM
HALL MAJOR PROGRAM GEOMETRY SPREAD/ NEW EXTERIOR PROGRAMS
MAJOR PROGRAM GEOMETRY SPREAD/ NEW EXTERIOR PROGRAMS
PROGRAM ENTITIESPROGRAM & CONNECTIVITY ENTITIES & CONNECTIVITY
d u f f e r i n _ grove 1
1:250
1
CONTEXT PLAN
1:250
In the preliminary stages of the design, the thought of unifying buildings needed a coherent logic with the required program. In order to compliment both architectural idea and design, I decided to distinguish three major program spaces and use them as main entities on the site. With careful consideration, the elected programs were as follows: main reception, multipurpose gym, and multipurpose hall. GREEN ROOF
HEAT ESCPAES THROUGH SKYLIGHTS
GREEN ROOF
HEAT ESCPAES THROUGH SKYLIGHTS
TREE FOLIAGE FOR SUMMER SUN
TREE FOLIAGE FOR SUMMER SUN
PASSIVE COOLING_SUMMER
COMMUNITY COMMON
+
+
OPERABLE WINDOWS
DIFFUSE LIGHTING
_
OPERABLE WINDOWS
DIFFUSE LIGHTING
PASSIVE COOLING_SUMMER
CROSS VENTILATION
THERMAL MASS
_
CROSS VENTILATION
THERMAL M
As a planning strategy, the three programs were spread diagonally from the intersection of Dufferin Street and Dufferin Park Avenue, in sequential geometries of rectilinear tapered shapes. ACTIVE EXHAUST SYSTEM
+
DECIDUOUS TREES ALLOW MAXIMUM SOLAR GAIN
2
COLD AIR INTAKE
ACTIVE EXHAUST SYSTEM
ACTIVE HEATING_WINTER
DECIDUOUS TREES ALLOW MAXIMUM SOLAR GAIN
ARTIFICIAL LIGHTING
+
AIR HEATED - CONTACT WITH HYDRONIC COILS
HEATED COILS IN SLAB 2
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Duffering Toronto 3rd YEAR grad project 2013 Instructor: Maria Denegri
CONTEXT PLAN
ARTIFICIAL LIGH
ACTIVE HEATING_WINTER
RAIN WATER COLLECTED BY DRAIN TO CISTERN
RAIN WATER COLLECTED
HEATED COILS IN SLAB
MULTIPURPOSE GYM
9 LANDSCAPE ABSORBS
AIR HEATED - CONTACT WITH HYDRONIC COILS
WEST ELEVATION
1:100
sequence of construction
By carrying forth the literal significance of community, where common entities share spaces and be unified, the design thesis was established.
PROVIDE PROVIDE METAL METAL CAP CAP PROVIDE PROVIDE BLOCKING BLOCKING AS AS SHOWN SHOWN PROVIDE PROVIDE PREFINISHED PREFINISHED METAL METAL FASCIA FASCIA FLASHING FLASHING W/ W/ DRIP DRIP EDGE EDGE ON ON 22 -- 13 13 EXTERIOR EXTERIOR PLYWOOD PLYWOOD ROOF ROOF MEMBRANE MEMBRANE RIGID RIGID INSULATION INSULATION
NORTH BUILDING SECTION 1:250
sequence of construction
INTERIOR PERSPECTIVE: MULTI-PURPOSE GYM EXTERIOR PERSPECTIVE: ENTRANCE + MULTIPURPOSE GYM+ MULTIPURPOSE HALL
EAST ELEVATION
With the strategy to build three major cohesive building entities on site, creating unique interior spaces, and shaping new outdoor program spaces for all public users to utilize to the fullest, the new Dufferin Grove Community Centre not only carries a considerable amount of literal expression, but an architectural one as well.
1
steel column + hss
2
concrete wall + mullion frame system for metal panel cladding
3
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
1
steel column + hss
2
concrete wall + mullion frame system for metal panel cladding
3
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
1:250
1:100
area of focus
MULTIPURPOSE GYM SECTION
3
area of focus
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
9
glulam connected and fastened to steel joint connections on hss
timber beams connected to glulam members + girder system
10
WALL SECTION
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
4
2
WALL DETAIL
3
PARAPET DETAIL
1
FOUNDATION DETAIL
PROVIDE METAL CAP
PROVIDE BLOCKING AS SHOWN
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
8
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
final construction and materials PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
rigid insulation on hss with z-bars and clip support, capped with metal sheet + glass and window frame system installed
PROVIDE BLOCKING AS SHOWN
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
sequence of construction
7
PROVIDE METAL CAP
PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
SOUTH BUILDING SECTION 1:250
PRODUCED PRODUCEDBY BYAN ANAUTODESK AUTODESKEDUCATIONAL EDUCATIONALPRODUCT PRODUCT
PRODUCED PRODUCEDBY BYAN ANAUTODESK AUTODESKEDUCATIONAL EDUCATIONALPRODUCT PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
2
WALL DETAIL
1
FOUNDATION DETAIL
roof: membrane + rigid insulation + plywood sheathing + asphalt
2 DETAILWALL DETAIL WALL Scale
3 PARAPET DETAIL PARAPET DETAIL WEST ELEVATION
1:10
1:100
Scale
mechanical + electrical + plumbing
1:10
final construction and materials 4
WALL SECTION
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
7 CROSS SECTION
1:250
rigid insulation on hss with z-bars and clip support, capped with metal sheet + glass and window frame system installed
8
9
glulam connected and fastened to steel joint connections on hss
timber beams connected
10
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
glulam members + girder system INTERIOR PERSPECTIVE: ENTRANCE + LOUNGE to + CAFE
INTERIOR PERSPECTIVE: MULTI-PURPOSE GYM
roof: membrane + rigid insulation + plywood sheathing + asphalt mechanical + electrical + plumbing
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 1
NORTH ELEVATION
te with vanized metal sheet d
4
z bars support + metal clips for metal panel cladding
te with vanized metal sheet d
4
z bars support + metal clips for metal panel cladding
steel column + hss
2
3
concrete wall + mullion frame system for metal panel cladding
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
5
z bars support + metal clips for metal panel cladding
metal panel cladding applied
6
1:100
EAST ELEVATION
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
6
lateral structural steel supports & connections welded onto hss
lateral structural steel supports & connections welded onto hss
1:100
INTERIOR PERSPECTIVE: MULTI-PURPOSE GYM 5
metal panel cladding applied
area of focus
PRODUCED PRODUCED BY BY AN AN AUTODESK AUTODESK EDUCATIONAL EDUCATIONAL PRODUCT PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
1
7
primary steel structural component
PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
LOUVRES w/ SCREEN SEALANT ALUMINIUM FLASHING WEATHER MEMBRANE w/ PLYWOOD ROOFING MESH GRAVEL
3
1
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
3
PRODUCED BY BY AN AN AUTODESK AUTODESK EDUCATIONAL EDUCATIONAL PRODUCT PRODUCT PRODUCED
timber beams connected to glulam members girder system ALUMINIUM+VENTILATION
11
10
PROVIDE BLOCKING AS SHOWN
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
WALL SECTION
1
FOUNDATION DETAIL
2
WALL DETAIL
1
FOUNDATION DETAIL
roof: membrane + rigid insulation +
plywood sheathing + asphalt FLASHING MEMBRANE OVERLAP PROVIDE PREFINISHED METAL FASCIA ALUMINIUM VENTILATION W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD LOUVRES w/ SCREEN UPPER VENTILATION FLAP WITH ROOF MEMBRANE mechanical + electrical + plumbing SEALANT BRUSH SEALS RIGID INSULATION MEMBRANE ALUMINIUM MEMBRANE OVERLAP OVERLAP ALUMINIUM VENTILATION VENTILATION ALUMINIUM FLASHING LOUVRES MECHANICAL PUMP FOR LOUVRES w/ w/ SCREEN SCREEN UPPER FLAP WITH UPPER VENTILATION VENTILATION WITH WEATHER MEMBRANE w/ VENTILATIONFLAP CONTROL SEALANT SEALANT BRUSH BRUSH SEALS SEALS PLYWOOD MEMBRANE OVERLAP VENTILATION ALUMINIUM FLASHING ALUMINIUM FLASHING STEEL BAR ANCHORED ROOFING MESH MECHANICAL MECHANICAL PUMP PUMP FOR FOR LOUVRES w/VENTILATION SCREEN 10 window top: rigid insulation completed withWEATHER MEMBRANE CONTROL OVERLAP ALUMINIUM MEMBRANE VENTILATION UPPER VENTILATION WITH WEATHER MEMBRANE w/ w/ VENTILATIONFLAP CONTROL z-bars, clips, metal cap, and mullion SEALANT LOUVRES w/ SCREEN PLYWOOD GRAVEL BRUSH PLYWOOD UPPER VENTILATION FLAPSEALS WITH SEALANT MESH STEEL ROOFING ALUMINIUM FLASHING STEEL BAR BAR ANCHORED ANCHORED ROOFING MESH BRUSH SEALS MECHANICAL FOR roof: membrane + rigid insulation + MEMBRANEPUMP OVERLAP ALUMINIUM VENTILATION ALUMINIUM FLASHING WEATHER MEMBRANE VENTILATIONPUMP CONTROL LOUVRES w/ SCREEN w/ plywood sheathing + asphalt GRAVEL MECHANICAL FOR GRAVEL PLYWOOD UPPER VENTILATION FLAP WITH WEATHER VENTILATION CONTROL RIGID INSULATION SEALANT MEMBRANE w/ BRUSH SEALS STEEL BAR ANCHORED ROOFING PLYWOODMESH mechanical + electrical + plumbing AIR VAPOUR ALUMINIUM FLASHING ROOFING MESH MECHANICAL PUMP FOR BARRIERSTEEL BAR ANCHORED GRAVEL WEATHER MEMBRANE w/ RIGID VENTILATION CONTROL RIGID INSULATION INSULATION POST + PLYWOOD GRAVEL AIR VAPOUR VAPOUR RAILAIR FRAMING STEEL BAR ANCHORED ROOFING MESH BARRIER BARRIER OUTER GLAZING 5 metal panel cladding applied z bars support + metal clips for metal RIGID INSULATION GRAVEL POST + + panel cladding POST RAIL FRAMING VAPOUR RIGID INSULATION RAILAIR FRAMING BARRIER OUTER OUTER GLAZING AIRGLAZING VAPOUR
PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
9
louvre installation within glazing system
timber beams connected 7 interior to glulam members + girderglazing systemsystem (double skin)
5
zinc metal panel installation
8
mechanical doubleskin ventilation system (grill + mechanical pump)
6
secondary steel structural components
9
roof assembly
10
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
10
parapet + flashing
11
plywood sheathing + asphalt HVAC + sprinkler components
GYM WALL SECTION |
WEST ELEVATION mechanical + electrical + plumbing
COMPLETE ASSEMBLY AND MATERIALS
DOUBLE SKIN |
COMPLETE ASSEMBLY AND MATERIALS
1:100
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013
4
WALL SECTION
sequence of construction
PROVIDE PROVIDE METAL METAL CAP CAP PROVIDE PROVIDE BLOCKING BLOCKING AS AS SHOWN SHOWN
final construction and materials by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PROVIDE METAL CAP
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
9
3
PROVIDE METAL CAP
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
timber beams connected to glulam members + girder system
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
4
2
WALL DETAIL
final construction and materials
1
1 1
2
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
1:10
DESK EDUCATIONAL PRODUCT
1
glulam connected and fastened to steel 4 joint connections on hss
Interior glazing system
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
1:100
FOUNDATION DETAIL
9
PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
PARAPET DETAIL
roof: membrane + rigid insulation +
3 SOUTH ELEVATION
Scale
PROVIDE METAL CAP
rigid insulation on hss with z-bars and clip 8 support, capped with metal2sheet +metal roof decking with roof underlayment board glass and window frame system installed 3
FOUNDATION DETAIL
area of focus
1
PROVIDE PROVIDE PREFINISHED PREFINISHED METAL METAL FASCIA FASCIA FLASHING FLASHING W/ W/ DRIP DRIP EDGE EDGE ON ON 22 -- 13 13 EXTERIOR EXTERIOR PLYWOOD PLYWOOD ROOF ROOF MEMBRANE MEMBRANE RIGID RIGID INSULATION INSULATION
sequence of construction
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 6
lateral structural steel supports & connections welded onto hss
BARRIER POST + RIGID RAILINSULATION FRAMING POST + AIRGLAZING VAPOUR OUTER RAIL FRAMING
3
BARRIER PARAPET OUTER DETAIL GLAZING POST + RAIL FRAMING OUTER GLAZING
33
1
steel column + hss
2
concrete wall + mullion frame system for metal panel cladding
3
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
1
steel column + hss
2
concrete wall + mullion frame system for metal panel cladding
3
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
3 3
area of focus
3
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
DOUBLE GLAZING roof: membrane + rigid MULLION insulation +
metal panel installation
8
mechanical doubleskin ventilation system (grill + mechanical pump)
9
roof assembly
11
SUPPORT plywood sheathing + asphalt HVAC + sprinkler components
DOUBLE GLAZING mechanical + electrical + plumbing DOUBLE GLAZING MULLION MULLION SUPPORT SUPPORT
DOUBLE GLAZING MULLION
HARDWOOD LOUVRES
SUPPORT DOUBLE GLAZING MULLION OPERABLE WINDOW SUPPORT
HARDWOOD LOUVRES LOUVRES HARDWOOD
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
HARDWOOD LOUVRES
HARDWOOD LOUVRES FLASHING MECHANICS TO LOUVRES AND OPERABLE WINDOW FLASHING FLASHING MECHANICS TOTO LOUVRES GRILLS MECHANICS TO LOUVRES AND OPERABLE OPERABLE WINDOW INTAKE AIR AND WINDOW FLASHING FLASHING GRILLS TO GRILLS MECHANICS TOTO LOUVRES INTAKE AIR AIR INTAKE AND OPERABLE WINDOW MECHANICS TO LOUVRES STEEL SUPPORT AND OPERABLE WINDOW FLASHING
GRILLS TO INTAKE MECHANICS TOAIR LOUVRES GRILLS TO STEEL SUPPORT STEEL SUPPORT AND OPERABLE WINDOW INTAKE AIR
STEEL STUD
EXTERIOR METAL CLADDING
2 7
7 7
88 8 8
sequence of construction
2
WALL DETAIL
3
PARAPET DETAIL
1
FOUNDATION DETAIL
PROVIDE METAL CAP
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
final construction and materials 4
7
rigid insulation on hss with z-bars and clip support, capped with metal sheet + glass and window frame system installed
8
glulam connected and fastened to steel joint connections on hss
9
timber beams connected to glulam members + girder system
10
7
rigid insulation on hss with z-bars and clip support, capped with metal sheet + glass and window frame system installed
8
glulam connected and fastened to steel joint connections on hss
9
timber beams connected to glulam members + girder system
10
WALL SECTION
3 PARAPET DETAIL PARAPET DETAIL
Scale
Scale
1:10
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
mechanical + electrical + plumbing
1:10
2
WALL DETAIL
1
FOUNDATION DETAIL
final construction and materials 4
WALL SECTION
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 window top: rigid insulation completed with z-bars, clips, metal cap, and mullion roof: membrane + rigid insulation + plywood sheathing + asphalt
STONE TILE STEEL STUD STUD STEEL
mechanical + electrical + plumbing
STONE TILE TILE STONE SPANDREL PANEL STEEL STUD
EXTERIOR METAL CLADDING SPANDREL PANEL
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013 1
steel column + hss
2
3
concrete wall + mullion frame system for metal panel cladding
rigid insulation complete with air vapor barrier + galvanized metal sheet linear + gypsum board
4
z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
6
lateral structural steel supports & connections welded onto hss
EXTERIOR METAL CLADDING
EXTERIOR METAL CLADDING
19
STEEL COLUMN
+
STEEL STEEL COLUMN COLUMN
STONE OPEN OPEN GRADE AGGREGATE IN OPENINGS STONE GRADE CONCRETE PAVERS BEDDING COURSE EARTH EARTH BEDDING COURSE AGGREGATE IN OPENINGS STONE OPEN GRADE
STEEL COLUMN STEEL COLUMN STONE CLADDING
STONE OPEN GRADE EARTH BEDDING COURSE EARTH
STEEL COLUMN
2 DETAILWALL DETAIL WALL
STEEL STUD
BEDDING COURSE COURSE CONCRETE PAVERS BEDDING EARTH AGGREGATE IN OPENINGS
STEEL COLUMN STONE STONE CLADDING CLADDING
STONE OPEN GRADE
7
COMPLETE ASSEMBLY AND MATERIALS
OPERABLE WINDOW
Scale STEEL 1:10 AGGREGATE IN OPENINGS SUPPORT CONCRETE PAVERS CONCRETE PAVERS BEDDING COURSE WALLAGGREGATE DETAIL AGGREGATE IN OPENINGS OPENINGS ENTRANCE + MULTIPURPOSE GYM+ MULTIPURPOSE HALL EXTERIOR PERSPECTIVE: IN CONCRETE PAVERS EXTERIOR PERSPECTIVE: STONE OPEN GRADE ENTRANCE + MULTIPURPOSE GYM+ MULTIPURPOSE HALL
77
8
OPERABLE WINDOW
STEEL STUD EXTERIOR METAL CLADDING SPANDREL PANEL STONE TILEPANEL SPANDREL STONE TILE STEEL STUD EXTERIOR METAL METAL CLADDING CLADDING EXTERIOR SPANDREL PANEL STONE TILE SPANDREL PANEL
DOUBLE SKIN DETAIL
SPANDREL PANEL
DOUBLE SKIN |
PROVIDE BLOCKING AS SHOWN
roof: membrane + rigid insulation + plywood sheathing + asphalt OPERABLE WINDOW
STEEL CONCRETE SUPPORT PAVERS
GRILLS TO AIR STEELINTAKE SUPPORT
STONE TILE
COMPLETE ASSEMBLY AND MATERIALS
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013
DOUBLE GLAZING MULLION OPERABLE WINDOW SUPPORT WINDOW OPERABLE
HARDWOOD LOUVRES
OPERABLE WINDOW
GYM WALL SECTION |
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
DOUBLE GLAZING MULLION SUPPORT
PROVIDE METAL CAP PROVIDE BLOCKING AS SHOWN
PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
dary steel structural components
3
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
area of focus
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
10
parapet + flashing
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
10
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED PRODUCEDBY BYAN ANAUTODESK AUTODESKEDUCATIONAL EDUCATIONALPRODUCT PRODUCT
1:10
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
Scale
timber beams connected 7 interior to glulam members + girderglazing systemsystem (double skin)
PRODUCED PRODUCEDBY BYAN ANAUTODESK AUTODESKEDUCATIONAL EDUCATIONALPRODUCT PRODUCT
PARAPET DETAIL
9
installation within glazing system
EARTH
FLOOR TILES STONE CLADDING FLOOR STONE CLADDING FLOOR TILES TILES
STONE CLADDING
STONE TILES CLADDING FLOOR FLOOR TILES
FLOOR TILES
8
FLOOR TILES
E
WALL SECTION 1: 20 WALL SECTION 1: 20 WALL SECTION WALL 1: 20 SECTION LE SKIN - FOUNDATION DETAIL ALL 1: 20SECTION WALL SECTION 20 ALL 1: 20SECTION 20 ALL SECTION ALL 20 SECTION 20 ALL SECTION 20
PLYWOOD SHEATHING w/ WEATHER BARRIER
RIGID INSULATION
WEATHER BARRIER
FOOTING RIGID RIGID INSULATION INSULATION REINFORCED CONCRETE STEEL REBAR FOOTING FOOTING REINFORCED CONCRETE RIGID INSULATION REINFORCED CONCRETE STEEL REBAR STEELINSULATION REBAR RIGID FOOTING
DRAINAGE SHEATHING PIPE PLYWOOD w/ WEATHER DRAINAGE PIPE BARRIER
FOOTING REINFORCED CONCRETE RIGID INSULATION STEEL REBARCONCRETE REINFORCED
PLYWOOD SHEATHING SHEATHING w/ w/ PLYWOOD WEATHER BARRIER DRAINAGE PIPE BARRIER WEATHER PLYWOOD SHEATHING w/ DRAINAGE PIPE PIPE DRAINAGE WEATHER BARRIER PLYWOOD SHEATHING w/ RIGID INSULATION FOOTING REINFORCED CONCRETE STEEL REBAR
ARC 2014YS - CC 3: Conceptual Detail
M A RPIPE I A DRAINAGE
D E N E G R I
M M AA R R II A A
D D EE N N EE G G R R II
FOUNDATION F A R DETAIL A H Scale
K A B I R ARC 2014YS CC 3: Conceptual Detail U N I 2014YS V1:10 E R S I --TCC Y 3: O FConceptual T O R O NDetail TO ARC FF A A R R A A H H K A A B B II R R K UN N I VV EE R R SS II TT YY O O F TT O OR RO ON N TT O O U ARCI 2014YS - CC 3: FConceptual Detail
M R I A - CCD 3:E Conceptual N E G RDetail I ARCA2014YS F A A RR I AA H D E KN AE GB RI I R M U F N AI V ER R SA I THY O FK T AO R BO NI T OR U N I 2014YS V E R S I -TCC Y 3: O FConceptual T O R O NDetail TO ARC
M A R I A
D E N E G R I
F A R A H K A B I R UNIVERSITY OF TORONTO
1
1
1
7
primary steel structural component
FOUNDATION DETAIL
rigid insulation on hss with z-bars and clip 8 support, capped with metal2sheet +metal roof decking with roof underlayment board glass and window frame system installed
glulam connected and fastened to steel 4 joint connections on hss
louvre installation within glazing system
9
timber beams connected 7 interior to glulam members + girderglazing systemsystem (double skin)
10
window top: rigid insulation completed with z-bars, clips, metal cap, and mullion
10
parapet + flashing
11
plywood sheathing + asphalt HVAC + sprinkler components
roof: membrane + rigid insulation +
3
Interior glazing system
5
zinc metal panel installation
8
mechanical doubleskin ventilation system (grill + mechanical pump)
6
secondary steel structural components
9
roof assembly
GYM WALL SECTION |
PARAPET - DOUBLE SKIN - FOUNDATION DETAIL SCALE 1: 10 PARAPET - DOUBLE SKIN - FOUNDATION DETAIL SCALE 1: 10 PARAPET - DOUBLE SKIN - FOUNDATION DETAIL PARAPET - DOUBLE SKIN - FOUNDATION DETAIL SCALE 1: 10 SCALE 1: 10 PARAPET - DOUBLE SKIN - FOUNDATION DETAIL SCALE 1: 10
REINFORCED CONCRETE STEEL REBAR
by: Alvaro Quispe | instructor: Ivan Saleff | arc_2045H: building science-materials & construction II | major project | 04.01.2013
FOUNDATION DETAIL Scale
1:10
FOUNDATION DETAIL
PRODUCED BY AN AUTODESK
INTERIOR PERSPECTIVE: ENTRANCE + LOUNGE + CAFE INTERIOR PERSPECTIVE: ENTRANCE + LOUNGE + CAFE
INTERIOR PERSPECTIVE: MULTI-PURPOSE GYM INTERIOR PERSPECTIVE: MULTI-PURPOSE GYM
EAST ELEVATION
1:100
EAST ELEVATION
1:100
WEST ELEVATION
1:100
WEST ELEVATION
1:100
NAL NAL PRODUCT PRODUCT
AL AL PRODUCT PRODUCT
sequence of construction sequence of construction
OVIDE OVIDE METAL METAL CAP CAP
OVIDE BLOCKING OVIDE BLOCKING AS AS IDE IDE METAL METAL CAP CAP OWN OWN IDE IDE BLOCKING BLOCKING AS AS OVIDE PREFINISHED WN OVIDE PREFINISHED METAL METAL FASCIA FASCIA FLASHING FLASHING WN DRIP DRIP EDGE EDGE ON ON 22 -- 13 13 EXTERIOR EXTERIOR PLYWOOD PLYWOOD
sequence of construction sequence of construction
2
concrete wall + mullion frame system for metal panel cladding concrete wall + mullion frame system for metal panel cladding
2
3
3
rigid insulation complete with air vapor barrier + galvanized metal sheet rigid linearinsulation + gypsumcomplete board with air vapor barrier + galvanized metal sheet linear + gypsum board
4
rigid insulation complete with air vapor barrier + galvanized metal sheet rigid linearinsulation + gypsumcomplete board with air vapor barrier + galvanized metal sheet linear + gypsum board
4
4
z bars support + metal clips for metal panel cladding z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
5
metal panel cladding applied
z bars support + metal clips for metal panel cladding z bars support + metal clips for metal panel cladding
5
metal panel cladding applied
5
metal panel cladding applied
6
6
lateral structural steel supports & connections welded onto hss lateral structural steel supports & connections welded onto hss
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
1
1
steel column + hss
steel column + hss
2
concrete wall + mullion frame system for metal panel cladding concrete wall + mullion frame system for metal panel cladding
2
3
3
4
6
6
lateral structural steel supports & connections welded onto hss lateral structural steel supports & connections welded onto hss
3
PROVIDE METAL CAP PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
area of focus area of focus
steel column + hss
steel column + hss
area of focus
1
1
PROVIDE METAL CAP
PROVIDE BLOCKING AS SHOWN
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
glulam connected and fastened to steel
PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
area of focus area of focus
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PROVIDE METAL CAP
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
PROVIDE BLOCKING AS SHOWN
PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
2
WALL DETAIL
3
2 WALL DETAIL PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
3
final construction and materials
PROVIDE METAL CAP PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
PARAPET DETAIL
final construction and materials 4
9
timber beams connected
10
window top: rigid insulation completed with
AN AUTODESK EDUCATIONAL PRODUCT
8
PROVIDE METAL CAP
PARAPET DETAIL
WALL SECTION
1
FOUNDATION DETAIL
4
WALL SECTION
1
FOUNDATION DETAIL
PRODUCED BY AN AUTODESK EDUCATION
rigid insulation on hss with z-bars and clip
WALL DETAIL
PARAPET DETAIL
PROVIDE BLOCKING AS SHOWN PROVIDE PREFINISHED METAL FASCIA FLASHING W/ DRIP EDGE ON 2 - 13 EXTERIOR PLYWOOD ROOF MEMBRANE RIGID INSULATION
3
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
7
2
3
PROVIDE METAL CAP
PARAPET DETAIL
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
sequence of construction sequence of construction
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
area of focus
3
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
PRODUCED PRODUCED BY BYAN AN AUTODESK AUTODESK EDUCATIONAL EDUCATIONAL PRODUCT PRODUCT PRODUCED PRODUCED BY BY AN ANAUTODESK AUTODESK EDUCATIONAL EDUCATIONAL PRODU PRODU
EXTERIOR PERSPECTIVE: SOUTH BUILDING THRESHOLD
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
MEMBRANE MEMBRANE INSULATION INSULATION
PRODUCED BY AN AUTODESK EDUCATIONAL PRODUCT
IDE PREFINISHED OF IDEMEMBRANE PREFINISHED METAL METAL FASCIA FASCIA FLASHING FLASHING OF MEMBRANE RIP EDGE ID RIP EDGE ON ON 22 -- 13 13 EXTERIOR EXTERIOR PLYWOOD PLYWOOD ID INSULATION INSULATION
COMPLETE ASSEMBLY AND MATERIALS
mechanical + electrical + plumbing
STEEL REBAR FOOTING
PRODUCED BY BY AN AN AUTODESK AUTODESK EDUCATIONAL EDUCATIONAL PRODUCT PRODUCT PRODUCED
GLAZING EEECHANICALLY GLAZING GLAZING ECHANICALLY EECHANICALLY E GLAZING GLAZING ECHANICALLY EECHANICALLY GLAZING ECHANICALLY
DOUBLE SKIN |
COMPLETE ASSEMBLY AND MATERIALS
CONTEXT PLAN 1:2500
RETAIL OFFICE RESIDENTIAL COMMUNITY RECREATION PARKING
35,000m2 15,000m2 50,000m2 10,000m2 10,000m2 800 spaces
70,000m2 30,000m2 150,000m2 80,000m2 40,000m2 1600 spaces
TOTAL
120,000m2
370,000m2
PROGRAMMATIC MIX
RETAIL - 27.15%
20
OFFICE - 10.6%
RESIDENTIAL - 50.4%
COMMUNITY - 5.15%
RECREATION - 6.7%
+ OPEN SPACE TYPOLOGIES PARK - 17.4%
private terrace STREET - 15.75%
PUBLIC - 56.7%
FAR - floor to area ratio
PRIVATE - 10.15%
= 2.32
SITE - 87,150m2
FLOOR AREA - 202,054m2
DUFFERIN MALL DENSITY (residential) - ppl/km2
now - 26,849.15 / km2 (based on 2.6 ppl per unit)
UNIT DENSITY - units / hectare
900 units / 8.72 ha public park
A development with 119 dwelling which is part of a larger plan for Ypenburg designed by Frits Palmboom and Els Bet. The plan is composed of five district sub-development whos PARKING LEVEL masterplans 1:2000 were created by different architects. boulevard + piazza
The trapezoidal area is laid out with parallel pedestrian routes that cut into four long strips of land Cwhich is crossed B by short streets composed orderly and continuous traffic network. Buildings are designed so that they don’t line up. This creates vistas and a perception of increased space.
CONTEXT PLAN
skating rink + multifunctional area
1:2500
dufferin_redux Duffering Toronto 2nd YEAR grad project 2012 Instructor: Mauricio Quiros RETAIL OFFICE RESIDENTIAL
35,000m2 15,000m2 50,000m2
A D
D
OPEN SPACE AXONOMETRIC -
70,000m2 30,000m2 150,000m2
A
dufferin grove
C B
THE BIG IDEA THE BIG IDEA
linear accessibility
break apart
draw people in
increase density
linear accessibility
break apart
draw people in
increase density
AXIOMS AXIOMS
property
major nodes
connections
snipping connectors
cutouts become program
pedestrian access
vehicular access
property
major nodes
connections
snipping connectors
cutouts become program
pedestrian access
vehicular access
TYPOLOGIES TYPOLOGIES MIXED-USE
BIGBOX
STORE FRONT
STREET/BOULEVARD
PLAZA
MIXED-USE
BIGBOX
STORE FRONT
STREET/BOULEVARD
PLAZA
+
+
+
+
+
+
+
+ +
open circulation
grand showcase access from the main road
separation: circulation + entrance + exits open circulation
public gathering +
building
public gathering
building
grand showcase access from the main road
separation: circulation + entrance + exits
21
+
VERTICAL ELEMENTS retail
retail anchor store
VERTICAL ELEMENTS
anchor store
office
bridge
elevator
bridge
elevator
multifunation centre
office
office retail
retail
exterior courtyard
retail
ramp retail
office
office
food court
ramp
rink/fountain
anchor store
park
exterior courtyard
anchor store retail
pool cafe
fitness centre residential
residentail
residentail lobby
residentail services
restaurant
restaurant
restaurant
PARKING LEVEL
FIGURE GROUND PLAN
SECOND LEVEL
THIRD LEVEL
FOURTH LEVEL
TYPICAL TOWER PLAN
1:2000
1:2000
1:2000
1:2000
1:2000
1:2000
PERSPECTIVE - south vew
residential
amenities
-
C
aerial view
B
A
A
D
D
C B SECTION A-A
SECTION B-B
SECTION C-C
SECTION D-D
1:2000
1:2000
1:2000
1:2000
public park pedestrian roads parking lot semi private private
PRIVATE/PUBLIC DISTRIBUTION
PERSPECTIVE - east vew -
-
Shangri-La Toronto is a mixed-use 70 storey tower located in Toronto’s downtown core. The high-rise building contains 46 storeys of residential units situated above 17 storeys of luxury hotel. The glass atrium and podium along vibrant University Avenue, ideally sited in the center of the financial and entertainment district, will become a modern focal point in the city. The podium also contains the historical restoration of ‘Bishop’s Block’, one of the oldest remaining buildings in Toronto. Shangri-La Toronto is currently under construction and is scheduled for completion in 2013.
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SHANGRI-LA TORONTO
UNIVERSITY AVE/ ADELAIDE ST, TORONTO 0N 70 storey mixed-use/residential/hotel Hariri Pontarini Architects project role: CONSTRUCTION DRAWINGS CURRENTLY UNDER CONSTRUCTION - 2013 COMPLETION
Site Plan
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Ground Plan
East Elevation
West Elevation
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North Elevation
u
South Elevation
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ONE BLOOR
1 BLOOR EAST (yonge st/bloor st) TORONTO 0N 75 storey residential Hariri Pontarini Architects project role: CONSTRUCTION DRAWINGS CURRENTLY UNDER CONSTRUCTION - 2015 COMPLETION
One Bloor is a contemporary 75 storey high-rise residential building located at Toronto’s most significant intersection, Yonge and Bloor. Situated at the gateway to Bloor/ Yorkville, the city’s most prestigious retail area, the aesthetically modern tower will become a glowing symbol of Toronto’s world class architecture. The soaring, curving tower will create a dramatic effect on the city skyline as its sensuously sculpted piano curves softly blend into the surrounding context. The podium, with its organically curved terraces, softens the busy streetscape where 2 storeys of retail (including underground concourse retail) add to the bustle of the major intersection. One Bloor is currently under construction and is scheduled for completion in 2015.
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18 | parking floor plans
residential
18 | parking floor plans
residential
retail
retail
ground & second floor plans
amenity
ground & second floor plans
amenity
Parking 2 Floor Plan
Parking floor plan
residential
retail
Ground floor plan
amenity
22 | thirty seventh to fifty ninth & sixtieth to sixty fifth floor plans
Second Floor Plan Ground Floor Plan seventh & eighth to thirty fourth floor plans
residential
retail
amenity
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Second Floor Plan
Third Floor Plan (similar to Fourth and Fifth Floor) 22 | thirty seventh to fifty ninth & sixtieth to sixty fifth floor plans Third floor plan
Seventh Floor Plan residential
retail
amenity
Seventh floor plan Thirty Seventh to Fifty Ninth Floor Plan
Eighth to Thirty Fourth Floor Plan
Sixth Floor Plan
Thirty Seventh to Fifty Ninth Floor Plan
Thirty Seventh to Fifty Ninth floor plan
Sixtieth to Sixty Fifth Floor Plan
| 19
Ground Floor Plan
Parking 1 Floor Plan Parking 2 Floor Plan
20 | sixth & seventh floor plans
| 19
Sixtieth to Sixty Fifth Floor Plan
Sixtieth to Sixty Fifth floor plan
| 21
8 | pedestrian realm
North Elevation
pedestrian realm
South Elevation
| 9
West Elevation
| pedestrian realm
Pedestrian Realm
Northwest Streetview
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bloor yorkville busine Project was originally awarde and Storey Architects, and su
John van Nostrand, van Nos Adrian DiCastri, architectsAl
One bloor will be integrated into the Bloor Yorkville bia revitalization; transforming Bloor street between Church Street and Avenue Road. The improvements have included widened granite sidewalks; decorative street lighting; new street furnishings; public art; and improved walkways from Bloor Street to Cumberland and Yorkville. The plan also proposed the creation of continuous planting areas with mature trees, shrubs and flowers in raised, irrigated planting beds. Yonge Street will incorporate the granite sidewalks down to Hayden street, and will benefit from widened walkways resulting from the undulating faรงade at retail base as well as a public pathway which serves as a new connection to the Bloor Yonge ttc station.
ttc Subway Entrance
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SADR CITY
BUILDING BLOCKS FOR PEACE BAGHDAD IRAQ 4th YEAR studio project 2010 Instructor: IVAN MARTINOVIC
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The Silk Route The ancient travels began in the Chinese city of Changan and extended across deserts to oases and over mountain passes, through the great Central Asian trading cities of Samarkand, Bukhara, Turkmenistan to Tyre on the Mediterranean Sea. Scholars have considered the Silk Road one of the most significant links connecting various peoples and cultures.
Tarma
Talar
Ursi
Iwan
Hosh
Building typology in Baghdad
Culture vs. Religion
MEN
WOMEN
MEN
= WOMEN Sadr City
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Silk Road
Palace Hotel Palace Government Building Hotel Hospital + Government Building Church Mosque Hospital Monument + Church Police Mosque Monument Transportation P Police Major Road
+ Martyr’s Monument
+
+ P
+ +
Martyr’s Monument
Statue of Sadoum
++
+
P
Secondary Road Unpaved Road Railroad
Transportation Built Area Major DenseRoad Dense to Moderate Secondary Road Major Buildings Unpaved Road Railroad Hydrographic Features River, Lake, Canal
Built Area Water Reservoir OtherDense Orchard
Dense to Moderate Major Buildings
+ + +
Unknown Soldier Monument
+
+
+
Baghdad Tower
+
P
Statue of Sadoum
++
P
+
P P
Unknown Soldier Monument
+ Baghdad Tower
P
P P
+
+
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Rooms (separate boys/girls) Shower (2) W/c W/c
Multipurpose
W/c Storage
Storage
Rooms (separate boys/girls)
Laundry (2) Rooms (separate boys/girls)
W/c
Multipurpose
Gym Cafeteria
W/c
Classrooms (separate boys/girls) Lobby
Kitchen
Classrooms (separate boys/girls)
Cafeteria Cafeteria Administration
Lobby Amphitheatre W/c
Gym
SECURE
Library Administration Storage Nurse’s
HOME
EDUCATION
FARMING
LEISURE
Storage Cafeteria
Kitchen
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FARMING HOME
spatial analysis
SECURE LEISURE EDUCATION
Volumetric Plan/Section + Programming
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Rain Water Collection
Green Roof + Farming
Roof Slo
Shading Device
Natural Ventilation
Temperature Reduction
Light Well
Water Collection + Distributor
systems integration
stage1
stage2
stage3
stage4
stage5
The school itself will incorporate a dormitory, a clinic, a roof garden and a mosque. With emphasis on the education of the students, it is necessary to provide them with living space and proper medical care and security. Lack of vegetation is also a concern in the area; hence a rooftop garden to provide for the students and teach them how to sustain vegetation is also very significant.
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Roof garden
Male dorms
Female dorms Male classrooms
Open Archade/ corridor Exposed staircase
Service area/ Kitchen
Prayer Hall
Multi-space/cafe
Administration
Circulation Diagrams
Female classes
Prayer Direction Program Placement
Site Section C-C 1:400
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B
cross section cut
B
9
4
3 3
5
2 B
8 7
6
C
C
1
A
Roof Level 1 Skylights 2 Garden 3 Food production
1
A
B
2
10
Roof plan 1:800
C
B
C 17
11 16
18
A 13
14
12
This institution is to be designed for both social and political endeavors - posing ideas of equality and modernization. The school itself is also durable and self-deterrent.
Ground Level 1 Masjid 2 Male/Female water closet 3 Faculty lounge 4 Meeting room 5 Administration 6 Health clinic 7 Male classroom
8 Kitchen 9 Delivery 10 Cafeteria 11 Courtyard 12Library 13 Services 14Female classroom
15
B
A
C
C
A 19
A
Second plan 1:800
Second Level 15 Faculty offices 16 Male dormitory 17 Laundry room 18 Shower/water closet 19 Female dormitory
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HYDRO-PODS TORONTO 0N 4th YEAR digital tools project 2010 Instructor: VINCENT HUI Partner Project Contrbution: Equal Contribution
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The sample system has proven to be simple to maintain, with only water and fertilizer required to keep the system alive. The water tank will need to be regularly maintained and cleaned, approximately once every month, much like a fish tank. Plants can easily be moved in order to provide them with more or less sun according to their individual needs.
final assembly
Using digital tools and fabrication, this project required us to develop a vertical matrix accommodating sustained plant growth. We focused on hydroponic systems. We were developing our matrices through a series of rapid prototyping and iterative design processes. The second component consisted of sustaining the plant growth in our designs for the remainder of the term. We created a living wall system, given a bay and 1:1 scale.
The design went through a variety of iterations, but the concept of the individual pod stayed consistent throughout. The mould for the pod was built very simply out of particle board, and then a vacuum former was utilized to shape plastic around the mould.
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HYDROPONIC SYSTEM
VALVE
LAYER 1
LAYER 2 WATER POD
The pods were designed to hold plants in place, yet allow for water to flow freely from one pod to another, thus the asymmetrical design. The ‘plates’ that hold the plant pots in place were designed in autocad and were then cut on a laser cutter. The ‘plates’ feature a uniquely designed ‘hook’ that pulls the suspension cables towards the pods, thus creating tension along the cables.
PIPE
PUMP
HYDROPONIC SYSTEM
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HEATED ACRYLIC SHEETS VACUUM-FORMED
REMOVE MOULD OFF OF WOODEN BLOCK
TRIP THE EDGES, LEAVING HALF AN INCH BORDER MULTIPLE AS ETS TO HOLD
NOTCHES ARE DRILLED ON THE EDGES
LASER CUT PATTERNS ONTO ACRYLIC SHEET
MULTIPLE BASKETS TO HOLD PLANTS
40+
HENRY MOORE
SCULPTURE GALLERY TORONTO 0N 3rd YEAR studio project 2009 Instructor: JOHN INGRAO
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Based on a city proposed masterplan for the waterfront revitalization, a site within the overall masterplan was assigned for a gallery dedicated to Henry Moore and his works. The gallery design focused on circulation, natural lighting, transparency and introduced a double skin system using wood and perforated metal.
OBC requirement Toronto Presinct
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Exterior Perspective
Grade Level 1:200 5 cafe 1 delivery room 6 cafe kitchen 2 auditorium 7 lobby/reception 3 coat room 4 gift shop/resource center 8 public garden space 9 informal gallery
Second Level 1:200 1 restaurant kitchen 2 gallery 3 restaurant
gallery space
exterior entrance
One of the goals of the design was to display the works and artifacts of Henry Moore while preventing excessive lighting. The gallery includes two open atriums that allow diffused, soft natural light throughout the floor levls, including the ground level arcade that contains open public spaces such as the lobby and cafĂŠ. The exterior of the building is also primarily glass; allowing not only natural lighting but for outsiders to view the inside, heightening their curiosity.
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upper gallery
lower gallery
ground level
sub level
Cross Section
detail wall section
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HOUSING ON
TORONTO`S MAIN STREETS TORONTO 0N 2nd YEAR studio project 2008 Instructor: BARUCH ZONE
QUEEN STREET W COWAN AVE
Assigned the site of an existing parking lot within the city, and required to meet OBC regulations and adhere to to zoning restrictions that placed limitations on the front streetscape facade, the program was a mixed-use residential building containing retail along the street facade. The design includes a rear courtyard, living units oriented to maximize southern exposure, copper and metal cladding and use of colour to blend the building into its surrounding context.
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studio studio
6+ 46+
courtyard perspective courtyard perspective
Queen st. st. + + O’hara O’hara ave. ave. Queen Queen st. + O’hara ave.
back elevation elevation back back elevation
front elevation elevation front
7
+
front elevation
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7
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sub-level sub-level
ground floor
ground floor
sub-level
ground floor first-level
first-level
Studio Studio
first-level second-level
second-level
Two Bedroom Two Bedroom
second-level third-level
third-level
Single Bedroom Single Bedroom
third-level
ROCKEFELLER
As part of an urban planning project, a proposal was created to re-envision a master plan for the Rockefeller center in New York City. However, there was one catch – it had to be through the eyes of the firm, FOA. Thus, a team of five design students began intensive case studies of FOA’s manifesto, design techniques and graphical processes. Prior to any proposals, the site had to be 2009 IAN MACBURNIE thoroughly analyzed. The historical, functional and financial role of the Rockefeller Center was examined in order to better apprehend its role within its existing context. An appropriate reaction to the site, which plays an integral part in New York, could finally be made through such research.
CENTER PROPOSAL
48+
axonometric
A
A’
EXISTING VEGETATION: CANOPY
UNDERSTORY
CLEARING & SHORES
0m
WATER TABLE 324.73m
250m
SECTION A-A’
1 2 3 4 5 6 7 8 9
Haul Road Speed River
house barn shed drive shed shed house barn shed shed
10 11 12 13 14 15 16 17 18
house 2 storey house shed garage carport storey and half house shed fur farm building barn
120m BOUNDARY
Existing Buildings Internal
15 14
BOUNDARY
SETBACK BOUNDARY
Swale
Protected Wetland
SETBACK BOUNDARY
BOUNDARY
120m BOUNDARY
SCALE: 1:3000
1.2 P&W Fence
9
d Lair
8
d Roa
7
16
Eastern Entrance
6
Farm Lot 15 Entrance
Grey-Brown Podzolic Soil Profile Internal
A1 Surface Soil
Haul Road
Loam & Sandy Loam 12 in A2 Surface Soil 20-30 in B2 Subsurface Soil 24 in
4
Contours
5
Groundwater
2
324.75m Elevation
3
1
Drainage
Do
10
oa yR ne
11
w
C1 Subsoil 13
d
12
Cedar Rail Fence
Zoning A Agriculture
1.2 P&W Fence Electric Rail and CedarFence
Zoning A Agriculture
Site Axonometric Existing Buildings
Zoning H Hazard Zone
Southern Entrance
ll R
ste
Fore
Wetlands
oad
Zoning A Agriculture Zone
Zoning and Land Use
Roads Fencing
EX1 Extractive
Site Entrances
Corn
New Plant species
Hay Field
EXISTING VEGETATION: CANOPY
UNDERSTORY
CLEARING & SHORES
Zoning Maple tree (acer rubrum)
Cherry tree (prunus avium)
Basswood (tilia americana)
Aspen (populus tremuloides)
Cedar tree (thuja occidentalis)
White pine (pinus strobus)
Hawthorn (crataeus mordenensis)
Silver maple (acer saccharinum)
Elm tree (ulmus americana)
Spruce tree (picea glauca)
White oak (quercus alba) White birch (betula papyrifera)
Willow tree (salix alba ‘tristis’)
Dogwood (cornus sericea)
Sumac (rhus typhina)
Cattails (typha latifolia)
Farm
Pasture
Grasses
TERRA PRIME
Competition hosted by OSSGA, the project was a proposal to rehabilitate a given area. We created a diverse, eco-friendly environment that was also selfIncorporating walkways and watchtowers for public viewing. The AGGREGATE REHABILITATION sustaining. lake in the reserve is self-cleansing while the land has been introduced to a STUDENT DESIGN COMPETETION variety of plant species. The plants found in this environment are based on 2009 MARGERY WRINKLER extensive research from the soil and mineral deposits allocated from the region.
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Watchtowers
Sphagnum moss Peat 50-50 Peat Sand Fine Grain Aggregate
site axonometric
Proposed Plan
TOWARDS ILLUMINATION 2010 VINCENT HUI
This project paired two students to design lighting control elements for a preordained light fixture. Using elements of graphic design, we were to create a one page instruction sheet for external parties to understand the iconic and procedural nature of the design. Partners were expected to pre-fabricate the elements necessary for the production of a single light and include the necessary elements with an instruction set in a single envelope.
50+
aurabox
The idea of modular pieces was inspired by folded objects. Combined flower petal + folding pieces that once put together, looked like a large paper origami crystal
funnel Origami is seen in many places from simple paper decorations to architectural inspirations. We wanted to apply the similar idea into an every day lamp. We considered materials, minimum waste of material, lighting conditions and form. We designed a lamp for an appreciation of origami and its use in different mediums.
1
30 mm
Flat Packed Condition
38x
components
3 2
5
4
51
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6
prototype Form and Light We wanted to create a lamp that was asymmetrical and creates a variety of silhouettes. This would mean that when a person passes by, they would see a different shape. Our lamp has three prong-like features that extrude towards the ground. The light funnels its way down the three prongs with no openings to create a glowing ball-effect that has a perfect light condition distributed evenly, perfect for any living space.
7 production To recreate their own aurabox lamp, two 18x32 inch translucent acrylic sheets are needed. The thickness can vary,1.5 mm thickness is preferred for maximum light.
Laser cutter
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