architectural portfolio
STATEMENT
03
ARCHITECTURE
04
21
13 REPAIRIAN
THE SLU
CONTENTS
TREELINE
AUREOLE
39
33
27 THE SPINE
43 EAKER AFB
RESIDUAL
PHOTOGRAPHY
47
I was raised in the mountains of Jackson Hole, Wyoming, a small town surrounded by beauty, but isolated from major towns and cities by mountain passes, rivers, and hundreds of miles. Natural structures were my world, and I studied them with the eye of a photographer. The built environment was removed from me, so I did not know the urban landscape with all its complexities so vastly different to the natural world until quite recently. Being raised remotely from the urban world has piqued my curiosity in the urban environment and allows me to make unique observations one may fail to recognize. I know my background influences my every curiosity, decision, thought, and action within the world of design. I approach it all from an outsider’s perspective, yet with an air of familiarity. My perspective grants me the ability to make the “new,” and to avoid falling into the trap of the “already done.”
T H THE E THE P RPROBLEM OPROBLEM BLEM
HE PROBLEM
By 2040 2040 the majority
Over 60% 60% of wetlands
Byof 2040 2040 the majority of wetlands have 60% Over 60% have been destroyed the world will By 2040 the will majority of the of not the world have been destroyed been destroyed during the have access to during the industrialization willaccess not have access Over 60% By 2040 2040 the world majority 60% of wetlands notfresh have to during the industrialization industrialization of water year round of the United States the United of the world will have been destroyed to fresh water year round fresh water year round of the United States States not have access70% to 70% of water consumed fresh water yearbyround humans happens
during the industrialization the city of Vancouver of the United In States
70% the water used by 70% of water consumed 70% 99.85% 99.85% of city wetlands In the thecity of have Vancouver of Vancouver indoors. Making it directly humans happens indoors. by humans happens been detroyed 70% 70% of water consumed 99.85% of wetlands have 99.85% of wetlands have an ARCHITECTUAL architectural issue ISSUE Making it directly an In the city of Vancouver indoors. Making it directly by humans happens been destroyed 99.85% of wetlands detroyed have ARCHITECTURAL ISSUE an ARCHITECTUAL architectural issue ISSUE 99.85% indoors. Making it directly an ARCHITECTUAL architectural issueISSUE
been detroyed
Vancouver receives an average
of 42in of rain an peraverage year. This Vancouver receives receives ofis42 42in rain per year. This is an average in ofVancouver 140% above the national of 42in of rain per year. This is 42 in 140% above the national average. 140% average.
Vancouver receives an average 140% 140% above the national average of 42 42in in of rain per year. This is 140% 140% above the national average.
PLANS
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1. 2. 3. 4.
1. RETAIL RETAIL 1 Retail 4 Hotel 2. RESIDENTIAL 2 Residential 5 Parking RESIDENTIAL 3. OFFICE 3 Ofce 6 Wetland Node OFFICE 4. HOTEL HOTEL
WATER PRODUCTION POW WATER PRODUCTION POWE Need recommended by the Green Building Council
Need recommended Need by theafter Green Building Council using gray water for all toilets and using waterless urinals Need after using gray water for all toilets and using waterless urinals
6 6
4,500,000 gallons harvested 4,500,000 while operating at gallons harvested 90% efficiency. while operating at 90% efficiency.
Need after applying low flow fixtures and appliances currently Need after applying low flow on the market and implementing fixtures and appliances currently shared laundry on the market and implementing shared laundry
5,449,040 kWh/year
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3
5,449,040 kWh/year needed
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2 3
7,344,595 gal
1
4,129,208 gal
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4,129,208 gal
4
1
WETLAND NODE WETLAND NODE
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7,344,595 gal
6 6
8,734,614 gal
2 2
8,734,614 gal
3
roof. By breaking up the cisterns, the water the wetland. The built environment does not receive and release have marked rings that follow the water never travels more than 30 ft before it is water in an efficient, ethical, and sustainable way. Recreating the levels, allowing people to observe in real Wetlands are an essential part of our ecosystem actingof to filter captured, dramatically increasing the wetland, Repairian holds, filters and uses water through its vertical time the amount water currently stored. efficiency of the rain water Eachthrough the water cycle. Unfortunately, our systems and occupants mimicking the wetland with its plants, water as it collection. transitions cistern is located above the building so animals, and geology. Repairian looks to wetlands as inspiration human decisions have destroyed the majority of wetlands across gravity can be used to create water pressure The deep piles that are needed for the to collect, hold and release water closer to the way nature the world. rather than relying on pumps. columns afford the opportunity for intended. In doing this, the new development can now disconnect heating andto cooling. Heat from the grid and run on water naturally provided to the site. Repairian understands the built environmentgeothermal and its disrespect transfers are located in every column and Wetlands are traditionally thought of in plan as a the wetland. The built environment does not receive andis release A simple charcoal and UV filter configured feed the greater HVAC system. mediation between rain on land and the river. The design of When the columns intersect with the building water in an efficient, ethical, and sustainable way. Recreating the Reparian extends the wetland into section, acting as a mediator they act to house the water lines and direct vertically to reduce energy loads by using between the cloud and the aquifer. It becomes a wetland of sky wetland, Repairian holds,gravity filters to and uses water through water from floor plate to floor plate. All gray water isvertical stored and reused for pull water through theits system. and earth rather than just a wetland of surface. radiant heating andplants, cooling, toilets, etc. The systems and occupants mimicking the wetland with its This way of designing onlyessential provides all water for ecosystem acting to filter Wetlands arenotan part needs of our remaining as grayinspiration water is released into the animals, and geology. Repairian looks to wetlands humans occupying the land, it also restores land back to its wetland water as it transitions through the water cycle. Unfortunately, our wetland eventually being filtered back to the origins. Now this new development intersects itself within the water to collect, hold and release water closerriver to orthe way nature the cities water aquifer to replenish human decisions destroyed the cycle rather than opposing it like mosthave architecture falls guilty of. majority of wetlands across intended. In doing this, the new developmentsupply. can now disconnect
3AD IWETLAND M E N S I O N A L WIN 3E T L A N D 3 DIMENSIONS
the world. Repairian understands the built environment and its disrespect to the wetland. The built environment does not receive and release water in an efficient, ethical, and sustainable way. Recreating the wetland, Repairian holds, filters and uses water through its vertical systems and occupants mimicking the wetland with its plants, animals, and geology. Repairian looks to wetlands as inspiration to collect, hold and release water closer to the way nature intended. In doing this, the new development can now disconnect from the grid and run on water naturally provided to the site. Wetlands are traditionally thought of in plan as a mediation between rain on land and the river. The design of Reparian extends the wetland into section, acting as a mediator between the cloud and the aquifer. It becomes a wetland of sky and earth rather than just a wetland of surface. This way of designing not only provides all water needs for humans occupying the land, it also restores land back to its wetland origins. Now this new development intersects itself within the water cycle rather than opposing it like most architecture falls guilty of.
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water lter stacked vertically inside column to reduce energy by using gravity
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7
2
Rainwater is stored in small cisterns located in from the grid and run on each water column naturallyafter provided to the site. collecting on the solar Wetlands are traditionally thought plan the as water a roof. By breaking up of the in cisterns, mediation between rainnever on land and the river. The design travels more than 30 ft beforeofit is Reparian extends the wetland into section, acting asincreasing a mediator the captured, dramatically between the cloud and the aquifer.ofItthe becomes a wetland of sky efficiency rain water collection. Each and earth rather than justcistern a wetland of surface. is located above the building so This way of designing not only provides all water needs for gravity can be used to create water pressure humans occupying the land, it also back to its wetland rather thanrestores relyingland on pumps. origins. Now this new development intersects itself within the water cycle rather than opposing it like most architecture falls guilty of.
3
1the building When the columns intersect with they act to house the water lines and direct water from floor plate to floor plate. 9
5 3 6 7
creating a greenhouse environment, gravity to pull water through the warming system. the spaces under the roof during the winter months making them a viable outdoor space year round.
Rainwater is stored in small cisterns located in Rainw ater isafter stored in small cisterns each column collecting on the solar The back side of the cloud roof is operable. By using roof. Byeac breaking up the cisterns, water the solar gain solar and the within hofcothelum n glass after costack llectheteffect, ing Gray water its utilized heating cool air is pulled off thethan riverfor through series ofit is never travels more 30radiant ft the before courtyards cooling theceoutdoor during on the solar ll inroof. Water never and cooling located thespaces floor slabs.the the captured, dramatically increasing summer months. efficiency the rain than water collection. travels ofmore 30ft Each before cistern is located above the building so collection. gravity can be used to create water pressure Columns located in the wetlands act as a rather than relying on pumps. water reserve helping to store extra water for the summer months. The wetland columns have marked rings that follow the water When theallowing columns intersect with the building levels, people to observe in real they actthetoamount house of thewater watercurrently lines and direct time stored. 10 water from floor plate to floor plate. The deep piles that are needed for the columns afford the opportunity for geothermal heating and cooling. Heat transfers are located in every column and feed the greater HVAC system. All gray water is stored and reused for radiant heating and cooling, toilets, etc. The remaining gray water is released into the wetland eventually being filtered back to the river or aquifer to replenish the cities water supply.
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ts vertical plants, stsconfigured nspiration ds by using s configured ay nature ystem. ds by using isconnect ystem. site.
4 1 3 5 1 5
8 6 4 Where the columns intersect the 4 buildings, they house water lines to channel water from oor to oor 9 9 7 5 5 Water lter stacked vertically inside column to reduce energy by 10 using gravity 10 6 6 8 Grey water is stored and reused for toilets and the remaining is released into the wetland to be 7 ltered and returned to aquifer 7 Over 60% 60% of wetlands 9 been The backhave side of thedestroyed roof panels have
efficiency of the rain water collection. Each Gray water its utilized for radiant heating so cistern is located above the building and located theradiant floor slabs. gravity can be used toincreate water pressure Graycooling water its utilized for heating rather than relying on in pumps. and cooling located the floor slabs.
an as a A simple charcoal filter is configured Columns located inand theUV wetlands act as a design of When the columns intersect with the water building vertically to reduce energy loads by using s located in water reserve helping to store extra Columns located in the wetlands act asfor a mediator they act tocharcoal house the water lines direct gravity to pull water through the system. A simple and UV filter isand configured ns located the solar the summer months. The wetland columns in water reserve helping to store extra water for nd of sky water from floor plate to floor plate. vertically to reduce energy loads by using , the to water filter have markedmonths. rings that water nng the solar the summer The follow wetlandthecolumns gravity to pull water through the system. it is nately, our levels, allowing people observe real s,before the water have marked rings that tofollow the inwater needs for asing ndstoacross time theallowing amount ofpeople water currently stored. ng filter itthe is levels, to observe in real sbefore wetland Rainwater is stored in small cisternsstored. located in ction. Each nately, our asing the time the amount of water currently the water each column after collecting on the solar building so srespect to nds across ction. Each uilty of. roof.deep By breaking up the the ter nd pressure release The are cisterns, neededlocated forwater thein Rainwater ispiles storedthat in small cisterns building so neverdeep travels than ftonbefore itthe reating the Since the site ismore restored wetlands, columns afford opportunity foriswater is each column after collecting the solar srespect to ter pressure The piles thatthe areto30 needed forblack captured, dramatically increasing thelow tech its vertical able to treated with efficient, geothermal heating andenergy cooling. Heat roof. By be breaking upthe the cisterns, the water nd release heating columns afford opportunity for efficiency of the rainsimple water collection. Each its plants, strategies. Byheating using tanksHeat transfers are located inand every and never travels more than 30septic ftcolumn before itto isseparate reating the labs. geothermal cooling. cistern isgreater located above the building inspiration solid matter and effluent, black waterand isso slowly feed the HVAC captured, dramatically increasing the its vertical transfers are located insystem. every column the building gravity can towater create water pressure way nature released into and filtered by the wetland and returned efficiency ofbe theused rain collection. Each its plants, feed the greater HVAC system. sthe and direct building rather than relying onabove pumps.the building so disconnect to the aquifer. cistern is located inspiration ste.and direct All gray water is stored and reused for ds act as a site. gravity can be used to create water pressure way nature te. radiant heating and cooling, toilets, etc. The All gray and reused for ra water plan as for a rather thanwater relyingis onstored pumps. disconnect remaining gray water is released into theradiation The solar glass roof receives a lot of solar radiant heating and cooling, toilets, etc. The nd columns design of site. When the columns intersect with the building s configured wetland eventually beingis environment, filtered back towarming the creating a gray greenhouse the remaining water released into the water ais the mediator configured Grayact water its utilized radiant heating plan as a they to house the for water linescities andwater direct Grayorwater its utilized forfiltered radiant heating ds byin using river aquifer to replenish the spaces under the roof during the winter wetland eventually being back to the months erve real and of sky ds by using and cooling located in the floor slabs. design of water from floor plate tothe floor plate. When the columns intersect with the building and or cooling located inoutdoor floor slabs. supply. making them a viable space round. river aquifer to replenish the citiesyear water yystem. stored. system. a mediator they act to house the water lines and direct supply. rand needs for of sky water from floor plate to floor plate. its wetland Columns located in the wetlands act as a ed for the nr0 the water needs for Columns located in the wetlands act as a the majority ns located in water reserve helping to store extra water for rtunity guilty of. for ns in its located wetland water reserve helping to store extra water for n the solar the summer months. The wetland columns world will oling. Heat on thewater solar n the the summer The roof wetland columns The side months. ofrings the cloud is operable. s, the water haveback marked that follow the waterBy using column and to during industrialization es,before access theof. water guilty have that follow thethe water op esolar rabmarked lallowing egain window sthe and uses the ofrings the solar glass and the stack effect, it is levels, people to observe in real beforeyear it is round levels, allowing people to observe in the realseries of ater the United States cool aireffec isofpulled off theol river through stac kthe t to pull co air from the easing the time amount of water currently stored. easing the time the amount of water currentlyspaces stored. during the courtyards cooling the outdoor ection. Each Over 60% 60% of wetlands riv e r throu g h the o c r u tyards ection. reusedEach for summer months. building so have been destroyed building so water consumed ets, etc. The ater pressure The deepInpiles that are needed for the the city ater pressure The deep piles that of areVancouver needed for the during the industrialization ed the ansinto happens columns afford the opportunity for columns afford the opportunity for 99.85% 99.85% of wetlands have to the heating and cooling. Heat of the United geothermal States .back Making it directly geothermal heating and cooling. Heat cities water detroyed transfers been are located in every column and transfers are located in every column and CHITECTUAL hitectural issueISSUE feed the greater HVAC system. the building feed the greater HVAC system. the building Over 60% s and 60% direct of wetlands In the city of Vancouver es and direct have ate. been destroyed All gray water and reused for 99.85% of wetlands 99.85% haveisis stored ate. All gray water stored and reused for radiant heating and cooling, toilets, etc. The during the industrialization radiant heating and cooling, toilets, etc. The been detroyed remaining gray water is released into the Eof the United States remaining gray water is released into the wetland eventually being filtered back to the wetland eventually being filtered back to the river or aquifer to replenish the cities water river or aquifer to replenish the cities water supply. supply. n the city of Vancouver
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VERTICAL INSPIRATION
99.85% of wetlands have 99.85% been detroyed
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time the amount of water currently stored. Since the site is restored to wetlands, black water is able with toenergy efficient, tech Since tothebesitetreated is restored wetlands, blacklow water is strategies. Bytreated using septic efficient, tanks to low separate abledeep to bepiles with tech The thatsimple are energy needed for the solid matter black tanks waterfor slowly strategies. By and usingeffluent, simpleopportunity septic tois separate columns afford the released into heating and by the wetland and solid matter andfiltered effluent, black water is returned slowly geothermal and cooling. Heat The backtheside cloud to roof is operable. usin Since siteofisthe restored wetlands, blackBywater to the aquifer. Grey waare terlocated utinilizevery edthe column for released into andis filtered by wetland and and returned transfers the solar of the solar andefficient, the stacklow effec able to gain be treated with glass energy te water itsheating utilized for radiant heating toGray thetheaquifer. feed greater HVAC system. radiant in the oor cool airthe is pulled off simple the river through thetoseries strategies. By isusing septic tanks separa Since site restored to wetlands, black watero and cooling located in the floor slabs. slabsolar s glass roof receives a lot of solar radiation The courtyards the outdoor th solid to matter and effluent, blackspaces waterduring is lowslow able becooling treated with energy efficient, te Gray water its utilized for radiant heating creating a greenhouse environment, warming the All gray water is stored reused for radiation summer months. released into filtered by the wetland return The solar glass roof receives a lot of solar strategies. Byand using simple septic tanksand to separa and cooling located in the and floor slabs. spaces under the cooling, roof environment, during theetc. winter radiant and toilets, The months to the aquifer. creatingheating a greenhouse warming the solid matter and effluent, black water is slow making them a viable outdoor space year round. Columns located inroof the wetlands act as a months remaining gray water is during released the spaces under the theinto winter released into and filtered by the wetland and return water reserve to filtered store space extra water for wetland eventually being back to the making them a helping viable outdoor year round. to the aquifer. The solar glass roof receives a lot of solar radiati the summer months. The wetland columns river to replenish theintersec citiesact water Columns indo the wetlands as Coluor maquifer nslocated that not t a creating a greenhouse environment, warming have marked rings that water supply. water to store extra water for the reserve buildinghelping act as afollow wa terthe spaces during winterradiati mon The solarunder glass the roof roof receives a lotthe of solar levels, allowing people observecolumns in real the summer months. Thetowetland reserveamount . These are currently marked with making them a viable outdoor space year round. creating a greenhouse environment, warming time the of water have marked rings that follow stored. the water The backto sideindic of the cloud roofleviseoperable. rings ate water l in realBy using spaces under the roof during the winter mon levels, allowing people to observe the solar gain of the the cloud solar glass the stack effect, The side of roof isand operable. making them a viable outdoor space year round. timeback the amount of water currently stored. By using cool air isgain pulled offsolar the through of the of the glass and the stack effect, Thesolar deep piles that areriver needed forthe theseries courtyards cooling the outdoor spaces during the cool air is pulled the river through theforseries of columns afford offthe opportunity summer months. courtyards cooling the are outdoor spaces during the geothermal heating and cooling. The deep piles that needed forHeat the The back side of the cloud roof is operable. By usi summer transfers are located every column and columns afford opportunity for Septic months. tanks septhe ainrate solid the solar gain of the solar glass and the stack effe Since thegreater site heating is restored to wetlands, black water is feed the HVAC system. geothermal and cooling. Heat Since the site is restored to wetlands, black water is matter and efuwith ent energy and blefficient, ack coolback air isside pulled offcloud the river the series The of the roof through is operable. By usi able to be tech transfers aretreated locatedwith in every column andlow able to be treated energy efficient, low tech courtyards cooling spaces during watertheisgreater slowusing ly released the solar gain of the the solaroutdoor glass and the stack effe strategies. By simple septicand tanks to separate feed HVAC system. strategies. By using simple and septic tanks to separate All gray water iseffluent, stored summer cool air months. is pulled off the river through the series solid matter andwe blackreused water for is slowly ltered y b the tlands solid matter and effluent, black water is slowly radiant heating cooling, etc.and The courtyards cooling the outdoor spaces during released into andand filtered by thetoilets, wetland returned released into andwater the wetland remaining gray isbyreleased into and the All water isfiltered stored and reused for returned summer months. to thegray aquifer. to the aquifer. wetlandheating eventually filtered back to The the radiant andbeing cooling, toilets, etc. river or aquifer replenish the cities water remaining gray towater is released into the supply. The solareventually glass roofbeing receives a lotback of solar wetland filtered to theradiation The solar glass roof receives a lot of solar Solar aglass roofenvironment, crthe eates a radiation Vancouver receives an average creating greenhouse warming the river or aquifer to replenish cities water creating a sgreenhouse environment, warming the greenhou e env i ronment, spaces months supply. under the roof during theofwinter 42in of rain 42 in spaces under the roof during the winter months per year. This is making themthe a viable round. wa rming spaceoutdoor s underspace theyear making them a viable outdoor space140% year round. above the national average. 140%
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roof during the winter months
Vancouver receives an average of 42 42in in of rain per year. This is The back140% side of the cloud roof operable. By using above the isisnational 140% The back side of the cloud roof operable. average. By using
the solar gain of the solar glass and the stack effect, the solar gain of the solar glass and the stack effect, cool air is pulled off the river through the series of cool air is pulled off the river through the series of courtyards cooling the outdoor spaces during the courtyards cooling the outdoor spaces during the summer months. receives an average summer months.
Vancouver of 42 42in in of rain per year. This is 140% 140% above the national 1 average.
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4 The required 3 Column building 2heights Columns gradient 1areTheplaced site is restored
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mass is extruded from frontonto to back the site back to wetland
8 The cloud roofs cover the exterior spaces
CTION 54.9%
54.9%
3
5 The mass 4 The is broken required 3 Column for building 2heights Columns gradient are placed maximummass light ispenetration extruded from front to onto back the site
4
6 Courtyard 5 Thespaces mass 4 are The is broken required 3for Column building heights gradient carved within maximum the masses mass light ispenetration extruded from front to back
7 Circulation 6 Courtyard is stacked 5 Thespaces tomass 4are isThe broken required for buil
connect the carved buildings within maximum the masses light masspenetration is extruded and the street
54.9% 54.9% from solar
Need after applying low ow xtures & appliances and implementing shared laundry
3,023,298 kWh/year 3,023,298 from solar kWh/year
4,129,208 gal
4,129,208 gal
7,344,595 gal
7,344,595 gal
8,734,614 gal
gallons harvested at 90% efciency
8,734,614 gal
4,500,000 4,500,000
54.9% 54.9%
5,449,040 kWh/year needed 5,449,040 kWh/year needed
Need after gray water use for all toilet and waterless urinals
2,425,742 kWh/year 2,425,742 from the grid kWh/year from the grid
45.1% 45.1%
Need recommended by Green Building Council
LONG SECTION
1.
4. 5.
2.
3.
3. 4.
8.
5.
6. 1. Sunrise & sunset viewing deck 2. Auditorium / lecture hall 3. Balcony and circulation 4. ETFE fins / skylights
5. ETFE facade 6. Residential units 7. Local Pine forest 8. ETFE kinetic partitions
40- 50 years
West Auditorium
ETFE Kinetic Panels
Three Bedroom
5-10 years
SHORT SECTION
5’
-2015 seary
10’
15’
DAY
NIGHT
- Activation of “feel good� neurotransmitters - Establishment of consistent sleep schedule Circulation produces slow dimming of light to mimic sunrise & sunset
- Promote alertness during the day - Regulation of serotonin, dopamine, and melatonin
CIRCULATION
AXON
ETFE Facade
Steel Facade Support
Attached Circulation
Residential Units
Timber Truss
Steel Truss
Concrete/ steel core
ETFE Kinetic Panels
The structure and form was inspired by houses sitting inside a wood truss bridge
F ORM FI N DI N G form finding
A
100
B
50 20
510
20
50
100
path
5 10
volume
A-
A
B
circulation floor plan
FLOOR PLAN
A-A
A-A
LAWN
An outdoor natural experience through a roof deck
Window wall to skylight transition following sun path
VISION GLASS
WOOD SLAT DECKING METAL DECKING CONCRETE SLAB 1X1 STEEL COLUMN SPANDREL GLASS
CONCRETE SLAB
FLOOR PLAN
SKETCHES
SECTION A A
5 10 20
50
Opaque glass
Transparent glass
SPINE EXPLOADED AXON
BUILDING AXON The switch-back path alongside the building provides not only multiple entries into the building, but also unique garden spaces
The entire spine is enclosed in glass; however, the glazing changes to opaque glass in sections of the stair where program take place
SECTION BB
FACADE & FORM
INITIAL SKETCHES OF SKIN SYSTEM
ORIENTATION OF SHADING FINS
WEST FACADE STRUCTURE
SOUTH FACADE STRUCTURE
SHORT SECTION
SECTION A-A FOUNTAIN DETAILS
OLS ARTE HEED
3
MONUMENT
MONUMENT
DRAIN BELOW
STEEL EDGE REVEL BELOW
6” REVEL POOL EDGE
B
1 PLAN OF FOUNTAIN MEMORIAL w/ INFINITY POOL C
2 PLAN OF DRY MEMORIAL FOUNTAIN ATTACHMENT Fountain Attatchment
0’ - 6”
2’ - 0” 4
30'-10 3/4" 45'-0"
1
A
99
.54
5
3
6
3
1
3/4"
A
7
51'-2"
31'-1
1
°
8
2
BLACK GRANITE FINISH
BLACKAdjusting GRANITEScrew FINISH
2
3
WATER BARRIER Water Barrior
3
WATER BARRIER Water Barrior Washer SheathingAnchor SHEATHING Pendants Fastener FASTENER Stone Finish
1
FASTENER Fastener
BLACK TILE FINISH
Memorial Steel Structure MEMORIAL STEEL STRUCTURE Screw Attatching Fastener
Sheathing SHEATHING
42 '-3 "
C
Memorial SteelSTRUCTURE Structure MEMORIAL STEEL
SCREED LAYER
Water barrior
WATER BARRIER
Concrete Slab
CONCRETE SLAB
8’ - 0”
Screed Layer
2
5
Adjusting Screw
1
Washer Anchor Pendants
3
Stone Finish
5 DRY MEMORIA
Screw Attatching Fastener 45'-0 "
3
1
Hollow Steel Structural System
CONCRETE FINISH Concrete Finish DRAIN Drain
Metal plate CONCRETE SLAB Concrete Slab
ConcreteFLOOR FloorFINISH Finish: Reference CONCRETE
SCREED LAYER Screed Layer WATER BARRIER Water Barrior
B
Blinding BLINDING 6
Hollow Steel Structural System Concrete Slab
2
Metal plate Screws
PRESSURE PIPE
PLAN
Concrete Slab
RETURN FLOW PIPE
2
M A T ER IA L IDEN T IF IC A T ION
P L AN
5
10
25
50
100
3 FOUNTAIN MEMORIAL SECTION w/ INFINITY POOL
4 DRY MEMORIAL SECTION
Screws
W SU
6 DRY MEMORIA
VIEW FROM ABOVE
SECTION C-C
VIEW DOWN CENTER STAIR
N ARROW FLOOR PLAN
current farmland
Current farmland
housing units
steep land
Housing units
Steep land
Identification of unusable land
Placement of units within this unusable land
LAND USE PROCESS
eh T usefln of eth land is double by engai esth esidualr space. eh T lives of esth sfarme becomsairyfngudth easingcr eth amount of opcr eyth can yield. And forIncesu ndcrialyofeg w,aly eth comuniy b eatingcr Inicaly vbe path o . omewnrbcigah
added farmland
Added farmland
Addition of farmland on top of units
PHOTOGRAPHY Teh oprtuniy to ecapur sn with er spctiv mods and emotins. Teh oprtuniy to step outside selfmy and per oughtr eranoth set fo eys. Teh oprtuniy to esntpr eth way I se eth world to seroth w ecar to lok.
PHOTO BOOK
[out of] frame
N Y C S E R I E S still/scene