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![Page 1: Portfolio](https://reader033.fdocuments.us/reader033/viewer/2022042704/568c49a11a28ab491694ec1b/html5/thumbnails/1.jpg)
KOO, ChanWoo
Design PortfolioCOMPETITIONACADEMIC WORKSPROFESSIONAL WORKS
March 2007 - Present
ARCHITECTURE
PLANNING
DRAWING
PHILOSOPHY
PROGRAMING
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Sustainable Competition
July 2010
Project Summery
649-2 Gaksan-dong, Dong-gu, Deagu, KOREA
Project Area 43,184.81ft² (4,012m² )Bldg. Footprint 23,185.46ft² (2,154m²)Total Floor Area 32,542.96ft² (3,024.34m²) 71,806.37ft² (6,671.03m²) 104,360.09 ft² (9,695.37m²) Building Ratio 53.69%Floor Area Ratio 309.7%Parking 60 spaces
400 METER PROXIMITY800 METER PROXIMITY
Extension of Green Valley wind for wind turbine
Surrounded by nature and Apartment district
SITE TREE ON AXIS
HydroponicMech. 02
HydroponicMech. 01
Mech. 01
Adult & Community Education
Exhibition Food Production
Township Center
Offi ce Archive
ToddlerPlayground
Archive
Children Library
Mech. 02
Storage
LAYOUT BUILDING VERTICAL EXTRUSION MASS CONNECTION BY BRIDGE COVER WITH LIGHT ETFE S
Seperated masses help to get easy access and openness Great view on Green Roof Pressure and Temperature Gap
Access Green Axis
Optimum Orientation
Best Orientation
Wind Flow
Community Center
SITE ANALYSIS CLIMATE ANALYSIS
Green Growth and Environment
B1 FL. PLAN 1st FL. PL
Aerobics Classroom
Health Exercise room
Resting Area
Computation room
Classroom for Computer
Multipurposeroom
Sto.
CounselRoom
RestingArea
Multimedia Library
Reserve Army
Center
Offi ce
Storage
Community Room for Neighbors
Conference Room
Offi cet Archive
LibraryOpen LibraryOpen Library
e
e
SKIN
Prevailing Winds
Summer Sun Path
Public Zone: Libraries and conference rooms
Educational Zone: Classrooms for neighbors
Offi ce Zone: township administration offi ces
Green Zone: Atrium indoor gardens
Circulation (Open Space)
Winter Sun Path Vertical and horizontal awning
Solar Radiation Analysis
CO
MPETIT
ION
DESIGN STRATEGY
- Designed Eco-friendly interior environment related to the nature- Real Sustainable building satisfi ed with LEED Certifi cation.- Sustainable Design considering wind condi-tion and sun path. (Using Wind turbine, PV panel)
LOW CARBON BUILDING
Hydroponic System - Reuse the waste water to our irrigation - Provide local food to neighbors, which can help reducing CO2
ETFE System - High effi ciency of insulation - Light material can reduce structural load
Renewable Energy - Photo voltaic panel - Wind Turbines
LAN 2nd FL. PLAN 3rd FL. PLAN 4th FL. PLAN
ELEVATION
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How to Reduce Carb
HYDROPONIC SYSTEM WIND TURBINEThe average of wind velocity of Deaguis about 3m/s. It is not su� cient touse low rise building. Then, by makingproper narrow way, it makes possibleto generate the speed of wind. Thismethod is well known as Venturi E� ec
Waste Water Treatment
Rain water collectorRain water collector
SECTION
SECTION
Storage
Greywater facili� esBlackwater
Potable facili� esPotable water
Hydroponic gardenNutrient rich greywater
Light greywater
Service and Access
Valley Wind
Prevailing wind is accelerated by the building form to drive ver� cal axis turbines located be-tween the core and the main body of the buildingGreywater hydroponies
Blac
kwat
er re
turn Hydroponic supply
Waste water treatmentGreywater to hydroponics
Blackwater from toiletBlackwater from toilet
1. Anaerobic reactor 2. Anoxic reactor 3. Aerobic reactor 4. Clar� er 5. Aquaculture tank 6. Wetland system 7. UV � lter
Potable water
Earth Tube
Earth Tube
ETFE Skin ETFE Skin
ETFE, PV � lm
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on
Cafeteria in Green
PV � lm Shading system
Bridge in Green
Cooling system by water fall(Use puri� ed rain water)Green roof
Sustainable Competition
BASELINE CASE
Factor 1: High Performance Window
Factor 2: High Performance Insulation Factor
Designed Condition
- Single Low E glass Clear 1/8” Window System - 3 in polyurethane (R-18) for Roof Insulation - R-19 batt & 3/4 fi ber bd sheathing (R-2) for wall InsulationBuilding Energy Use Simulation by EQUEST
Building Energy Use Simulation by EQUEST
Building Energy Use Simulation by EQUEST
The layers of aGREEN Roof
Vegetation
Growing Medium
Drainage, Aeration Water StorageInsulation
Membrane Protection and Roof BarrierRoofi ng MembraneStructural Support
Total Consumption decreased with this Application 808,843.7 kwhCumulative Reduction for Leed Grade 8.26 %
Saved Carbon Footprint 370,740 kg
Total Consumption decreased with this Application 787,478.8 kwhCumulative Reduction for LEED Grade 10.69 %
Saved Carbon Footprint 108,696 kg
Energy Consumption 881,709.5 Kwh (488,650 kwh + 1,341,500,00 Btu x 0.000293 =)
COLD WEATHER - Keeping Inside Heat- Letting Visible Lighting Pass
WARM WEATHER - Rejecting Solar Heat- Letting Visible Lighting Pass
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 2.06 2.04 2.53 5.27 10.35 16.2 20.02 26.32 16.56 8.31 3.42 2.4 115.51
Heat Reject. 0 0 0 0.24 1.03 2.16 3.46 4.48 2.35 0.67 0.1 0.01 14.5
Space Heat 0 0 0 0 0 0 0 0 0 0 0 0 0
Vent. Fans 2.92 2.61 3.04 3.44 2.91 3.19 3.29 4.49 3.32 3.18 2.83 2.94 38.16
Pumps & Aux. 4.47 4.47 5.42 5.62 5.88 7 6.86 7.36 6.68 5.6 4.91 4.96 69.24
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 12.36 12.29 14.82 14.18 12.97 14.18 13.58 14.2 13.57 12.97 12.95 13.59 161.66
Total 28.74 28.22 33.96 36.55 40.4 50.54 54.75 64.69 49.97 37.97 31.41 31.44 488.65
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 269.7 210.7 187.9 74.6 32 33.7 36.6 18.7 32.9 45.9 119.3 218.3 1,280.30
Hot Water 5.2 5.3 6.4 6 5.1 5.2 4.6 4.6 4.4 4.4 4.7 5.3 61.2
Total 274.9 216 194.3 80.6 37.2 38.9 41.2 23.3 37.3 50.3 124 223.7 1,341.50
Electric Consumption (kWh x000)
Gas Consumption (Btu x000,000)
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 2.06 2.04 2.53 5.27 10.35 16.2 20.02 26.32 16.56 8.31 3.42 2.4 115.51
Heat Reject. 0 0 0 0.24 1.03 2.16 3.46 4.48 2.35 0.67 0.1 0.01 14.5
Space Heat 0 0 0 0 0 0 0 0 0 0 0 0 0
Vent. Fans 2.92 2.61 3.04 3.44 2.91 3.19 3.29 4.49 3.32 3.18 2.83 2.94 38.16
Pumps & Aux. 4.47 4.47 5.42 5.62 5.88 7 6.86 7.36 6.68 5.6 4.91 4.96 69.24
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 12.36 12.29 14.82 14.18 12.97 14.18 13.58 14.2 13.57 12.97 12.95 13.59 161.66
Total 28.74 28.22 33.96 36.55 40.4 50.54 54.75 64.69 49.97 37.97 31.41 31.44 488.65
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 269.7 210.7 187.9 74.6 32 33.7 36.6 18.7 32.9 45.9 119.3 218.3 1,280.30
Hot Water 5.2 5.3 6.4 6 5.1 5.2 4.6 4.6 4.4 4.4 4.7 5.3 61.2
Total 274.9 216 194.3 80.6 37.2 38.9 41.2 23.3 37.3 50.3 124 223.7 1,341.50
Electric Consumption (kWh x000)
Gas Consumption (Btu x000,000)
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 1.81 1.8 2.24 4.91 9.83 15.35 18.89 25.08 15.7 7.79 3.07 2.12 108.58
Heat Reject. 0 0 0 0.24 0.98 2.01 3.18 4.13 2.19 0.64 0.09 0.01 13.47
Space Heat 0 0 0 0 0 0 0 0 0 0 0 0 0
Vent. Fans 2.5 2.26 2.74 3.35 2.88 3.15 3.19 4.54 3.27 3.1 2.57 2.56 36.12
Pumps & Aux. 3.94 3.93 4.77 4.97 5.21 6.21 6.08 6.48 5.92 4.95 4.33 4.37 61.16
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 12.36 12.29 14.82 14.18 12.97 14.18 13.58 14.2 13.57 12.97 12.95 13.59 161.66
Total 27.54 27.1 32.72 35.44 39.12 48.69 52.45 62.29 48.15 36.69 30.19 30.18 470.57
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 221.6 169.9 149.8 56.8 25.9 26.8 26.2 12.4 27.3 35.1 92.3 176.2 1,020.40
Hot Water 5.2 5.3 6.4 6 5.1 5.2 4.6 4.6 4.4 4.4 4.7 5.3 61.2
Total 226.8 175.2 156.2 62.8 31 32 30.9 17 31.6 39.5 97 181.5 1,081.60
Electric Consumption (kWh x000)
Gas Consumption (Btu x000,000)
bon foot Print?
ETFEETFE(Ethylene Tetra� uoro Ethylene) is well known by Beijing Na� onal Aqua� cs Centre ETFE � lm is a � uoric resin � lm made of Ethylene, Tetra-� uoro Ethylene interpolymerza� on resin, and is
dis� nct from conven� onal oxida� on vinyl � lm
With pa� erned cushions of three or more foils, variable air pressure moves the middle foil to manipulate the insula� on val-ue and shading coe� cient of the envelop. Pa� ern open(1-2), pat-tern closed/superimposed(3-4)
u o g e s t
To maximize the Venturi E� ect, the narrow path is designed both ver� cally and horizontally. As below simula� on, the narrow path is generated not only between masses but also between top of masses and bo� om of roof structure. By the Venturi E� ect, we can get 4.5m/s wind velocity to generate wind turbine more e� cient-ly. It is 1.5 � mes faster speed than average wind speed of this site.
Physical characteris� c compare with glass- Transparency: 90% transmission respec� vely- Replacement: Easy to replace and repair- Fire: Low � ammability and self ex� nguishing- Cleaning: External cleaning frequencies - Weight: 350g/m² Very light compared to glass. - Cost: roughly half the price of a conven� onal high performance window
n(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
Area Ligh� ngTask Ligh� ngMisc. Equipment
Electric Consump� on(kWh) Gas Consump� on(Btu)
Exterior UsagePumps & Aux.Ven� la� on Fan
Water Hea� ngHt Pump Supp.Space Hea� ng
Refrigera� onHeat Rejec� onSpace Cooling
CO
MPETIT
ION
3: High Performance Skin Factor 4: Daylighting System Factor 5: Geothermal Heating and Cooling System
Factor 6: High Effi ciency Fixture & Rainwater Reuse
Factor 7: Renewable Energy
370,740 + 108,696 + 648,14 + 221,820 + 675,456 + 853 + 238,392 = 2,264,101 kg Co2
Saved Total Carbon Footprint:
Total Consumption decreased with this Application 660,091.4 kwhCumulative Reduction for LEED Grade 25.14 %
Saved Carbon Footprint 648,144 kg
Total Consumption decreased with this Application 16,495.5 kwhCumulative Reduction for LEED Grade 30.08 %
Saved Carbon Footprint 221,820 kg
Total Consumption decreased with this Application 483,741.2 kwhCumulative Reduction for LEED Grade 45.14 %
Saved Carbon Footprint 675,456 kg
Renewable Energy Total Amount 46,854 kwhOn-site Renewable Energy of Designed Consumption 45.14 %
Saved Carbon Footprint 675,456 kg
Water Reduction Percentage 62.1%
Saved Carbon Footprint 853 kg
Total Daily Volume 3,413 galTotal Annual Volume 1,092,160 gal
Calculation of Kwh Generated by PV Panels<refer to http://evworld.com>
Calculation of Kwh Generated by Wind Turbine<refer to http://www.cleanfi eldenergy.com>
Total Daily Volume 1,490 galAnnual Volume 476,800 gal
Rainwater Volume 63,108 galTotal Annual Volume 413.692 gal
Discription
Digital photo sensors detect daylight levels and automatically adjust the output level of electric
lighting to create a balance The goal is energy savings.
Design Condition- 50 fc Design Light Level
- 7.5M Height Above Floor- 50% of Zone Depth
Performance Data
U-Value : 0.2Shading Coeffi cient 0.15Visible Transmitance 0.5
one outer and one inner layer of ETFE foil can be printed to allow the light transmission
to be varied, thereby adjusting the upper condition values.
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 1.42 1.4 1.75 3.66 7.45 12.15 15.88 21.08 12.98 6.45 2.53 1.68 88.43
Heat Reject. 0 0 0 0.17 0.75 1.6 2.61 3.38 1.78 0.53 0.08 0.01 10.91
Space Heat 0 0 0 0 0 0 0 0 0 0 0 0 0
Vent. Fans 2 1.9 2.24 2.56 2.1 2.3 2.44 3.59 2.66 2.9 2.46 2.24 29.39
Pumps & Aux. 3.14 3.14 3.81 3.95 4.15 4.96 4.86 5.16 4.73 3.97 3.46 3.49 48.81
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 9.18 8.77 10.41 9.56 8.58 9.36 9.09 9.49 9.31 9.18 9.41 10.06 112.41
Total 22.68 22.04 26.35 27.7 30.26 38.16 42.41 50.54 38.97 30.26 25.14 25.01 379.52
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 171.96 133.07 113.97 42.67 16.93 13.39 14.13 4.5 13.27 22.33 67.98 133.4 747.61
Hot Water 5.21 5.31 6.37 5.99 5.14 5.16 4.62 4.59 4.38 4.39 4.7 5.32 61.18
Total 177.16 138.38 120.34 48.66 22.07 18.55 18.75 9.09 17.65 26.72 72.69 138.72 808.79
Gas Consumption (Btu x000,000)
Electric Consumption (kWh x000)
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 1.42 1.4 1.75 3.66 7.45 12.15 15.88 21.08 12.98 6.45 2.53 1.68 88.43
Heat Reject. 0 0 0 0.17 0.75 1.6 2.61 3.38 1.78 0.53 0.08 0.01 10.91
Space Heat 0 0 0 0 0 0 0 0 0 0 0 0 0
Vent. Fans 2 1.9 2.24 2.56 2.1 2.3 2.44 3.59 2.66 2.9 2.46 2.24 29.39
Pumps & Aux. 3.14 3.14 3.81 3.95 4.15 4.96 4.86 5.16 4.73 3.97 3.46 3.49 48.81
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 9.18 8.77 10.41 9.56 8.58 9.36 9.09 9.49 9.31 9.18 9.41 10.06 112.41
Total 22.68 22.04 26.35 27.7 30.26 38.16 42.41 50.54 38.97 30.26 25.14 25.01 379.52
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 171.96 133.07 113.97 42.67 16.93 13.39 14.13 4.5 13.27 22.33 67.98 133.4 747.61
Hot Water 5.21 5.31 6.37 5.99 5.14 5.16 4.62 4.59 4.38 4.39 4.7 5.32 61.18
Total 177.16 138.38 120.34 48.66 22.07 18.55 18.75 9.09 17.65 26.72 72.69 138.72 808.79
Gas Consumption (Btu x000,000)
Electric Consumption (kWh x000)Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Cool 1.59 2.06 2.66 5.98 8.96 13.99 16.89 21.81 13.78 7.93 4.55 2.97 103.17
Heat Reject. 0 0 0 0 0 0 0 0 0 0 0 0 0
Space Heat 1.8 1.24 0.95 0.26 0.04 0 0 0 0.01 0.1 0.39 1.16 5.93
Vent. Fans 2.6 2.47 2.87 2.73 2.54 2.87 2.98 3.44 2.9 2.55 2.5 2.72 33.16
Pumps & Aux. 1.84 1.75 1.85 2.05 2.06 2.38 2.29 2.34 2.15 1.9 1.77 1.92 24.32
Misc. Equip. 6.94 6.82 8.14 7.79 7.24 7.8 7.53 7.84 7.5 7.24 7.19 7.54 89.57
Area Lights 9.18 8.77 10.41 9.56 8.58 9.36 9.09 9.49 9.31 9.18 9.41 10.06 112.41
Total 23.94 23.11 26.88 28.37 29.42 36.4 38.77 44.93 35.64 28.9 25.82 26.37 368.56
Jan Feb Mar Apr May Jun Jul Aug Sep Oct Nov Dec Total
Space Heat 88.62 68.6 52.09 17.09 3.75 0 0 0 0 5.39 30.45 65.97 331.94
Hot Water 5.21 5.31 6.37 5.99 5.14 5.16 4.62 4.59 4.38 4.39 4.7 5.32 61.18
Total 93.82 73.91 58.46 23.07 8.89 5.16 4.62 4.59 4.38 9.78 35.15 71.29 393.11
Gas Consumption (Btu x000,000)
Electric Consumption (kWh x000)
• Ground-Source Heat Pump- Depth 30m, Spacing 6m- Minimum Design Flow: 0.5cfm/ft2
- No Fan Night Cycling- Design Temperature
Design Temp. INDOOR SUPPLY
Cooling 74.8 oF (23.8oC) 54.9 oF (12.7oC)
Heating 72 oF (22.2oC) 90 oF (32.2oC)
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May 2011
Mahattan LineMahattan to BrooklynMahattan to QueensNew Jersey to Manhattan
WATER NETWORK
EXISTING NETWORK
At Present, most routes are between Manhat-tan and New Jersey. The existing water transporta-tion routes in New York remain limited and serve only the the boroughs of Manhattan, Brooklyn and Queens.Before water transportation can be considered a viable mode of transportation for commuters, more stops must be added and the Bronx and Staten Island must be included.
For the Blue Network we propose adding new routes to the existing network as well as to the Bronx and Staten Island. Locating the HUB in Brooklyn Port helps revive the port as a civic and recreational strip. it’s development as an island of leisure. Strategi-cally locating the HUB by Brooklyn’s Navy Yard revital-izes the old shipyard as service center for blue network.
NEW NETWORK
Rising Water LevStorm Surges to tdue to global w
Lack of Ecologicalwith artifi cial levee
The result is a braces naturaing the harmf
RISING WATER
ECOLOGICAL ISSUE HARD EDGE
COMBINED SY
CLEAN TECH
According to the Architect’s Newspaper online “At-lanta and its neighbors in the Southeast seem to have settled into a permanent state of drought, but New York has the opposite problem: every year, the lev-els in the harbor rise. The two phenomena are � ip sides of the same coin - the inexorable and accelerat-ing process of climate change, which presents a dif-� cult set of problems for architects and urbanists.”Source: http://archpaper.com/news/articles.asp?id=1376
In-Water :Swim-ming, Windsurfi ng, Wake boarding, Jet skiing, Scuba diving
Boating :Canoeing,kayak, sailing
Near-Water: Fish-ing, Hiking, Biking, Rollerblade
Cruises: Tour boats, Dinning Cruises
Water Plaza
Botanic Garden
Beach Canopy
Outdoor Theater
REVITALIZING WATERFRONTCIRCULATION PROPOSAL ACTIVITIES PROPOSAL
NewPedestrian Path
5 min walk
10 min
PARK
BEACH
PUBLIC WHARF
15 min
20 min
ExistingSideWalk
SuggestedElectric Shuttle Bus RouteBUS STOP
SUBWAYStation
PROGRAMMING PROPOSAL
HUB IN NETWORK
In order to ease the transfer from water to land trans-portation and vice versa
Floating Island Subtraction Lift U
Reducing the volume to fi t required square footage and increasing natural light
To alargeof a
DESIGN PROCESS
PROGRAM OUTER CIRC
Water Taxi Terminal
Bicycle TerminalElectric Bus Terminal
Electric Bus
Ferry Terminal
Brooklyn Waterfront PLAN
Urban Competition
CO
MPETIT
ION
PROLOGUEDecades of neglect have left a derelict and declining wa-terfront edge. The city’s waterfront still remains ill-prepared for fl ooding and potential public spaces along it remain abandoned or under utilized.
Recently the water front has slowly experienced a revival with the help of new policies coupled with Vision 2020. Our proposal embraces this resurgence with the addition of a park-levee running along the edge of the waterfront with a graded edge to stimulate ecological diversity. It’s purpose is to reconnect the community with the waterfront while protecting the boroughs from future fl ooding.
ECOLOGICAL SOFT EDGE
vels and the land warming
Diversity structure
Levee Protects Land from rising Water Levels in case of rise in sea level
multifaceted solution that em-al ecologies while diminish-ul effects of natural disasters.
Reduces Wave Speed dur-ing Storm Surges and Al-lows for various Ecologies
Migrating Cana-dian Geese, Seagulls & Green-Crabs visit and inhabit the shores
Original Concrete Pier:Preserving the history of the site
Water Plaza
Courtyard
To Brooklyn & Manhattan Bridge
To Subway Stations & Downtown Brooklyn
Brooklyn Queens Expressway
Electric Bus Route:Dedicated bus that serves the waterfront
Pedestrian Bridge
Bike PathPedestrian Path
Park Levee
Playground: Constructed using reclaimed wood and steel
These planting attract insects like the American Lady Butterfl y & Honey Bee
Fountain Grass, Purple Cone fl ower & Linden trees can be found in the park
Soft Edge allows for various ecologies
Rock weed, Sea Lettuce& Seaweed found on the rocky shores provide animals food
R LEVEL
YSTEM (Soft Edge+Levee)
SOLUTION
SOLUTION
SECTION THROUGH PROPOSED WATERFRONT
Up Transformation Program
allow the passage of er ships and formation an observation deck
Streamlined shape make it possible to proper struc-ture system for lift up
Allocating program spaces for bicycles, shuttle bus, and water tax, and ferry terminal
CULATION (Transportation) INNER CIRCULATION
CirculationBicycle Circulation
EscalatorVertical Circulation
Dockfor Water-Taxi
WaterTaxiTerminal
FerryTerminal
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This pavilion expresses the duality of using fossil fuels. Visitors are encour-aged to bring plastic bottles with different options of disposal. Bottles placed in the shelf units create a facade that help fi lter light express-ing its benefi ts, while bottles thrown in large sunken fl oor bins become unsightly areas that are diffi cult to walk on showing its disadvantages.
The big pavilion houses a series of boxes with growing trays. These trays contain algae that convert waste-water from Brooklyn to usable bio-fuel. A race track runs through the pavil-ion where visitors can race on go-karts powered by the produced bio-fuel on site. This gives users a fi rsthand ex-perience of the advantages of clean bio-fuel and its endless possibilities.
BIO PAVILION FOSSIL FUEL PAVILION GEOTHERMAL PAVILION HYDRO PAVILION
Wall Floor
The geothermal pavilion edu-cates the user on the various ways one can harness geothermal en-ergy from the earth. The vertical and horizontal geo-tubes cre-ate loops that begin to act like functional art installations. Users are encouraged to touch and in-teract with the tubes to feel the heat they harness from the earth.
The Hydro Pavilion’s exterior is made of a screen of falling water. Water is pumped to the top of the pavil-ion and then fl ows down to turbines that regenerate electricity for the pumps creating an energy equilib-rium. On the interior of the pavilion, videos and images are projected onto the screen of falling water thus educating visitors about hydropower.
Urban Competition
NUCLEAR PAVILION OCEAN PAVILION SOLAR PAVILION WIND PAVILION
The nuclear pavilion is inspired by the tremendous energy created by nu-clear fi ssion. The result is in an interior space that’s constantly changing and unstable causing the visitor to con-tinuously move. It is made of a trans-lucent fl oating membrane partially on the river. It’s purpose is to educate the visitor’s about nuclear energy’s advantages and disadvantages.
The ocean pavilion’s design is a solu-tion to harnessing the energy from the East River’s strong currents. Tall tubes enclose the pavilion. The bot-tom of each tube touch the surface of the river while the top has a turbine. When waves push up from the bottom end, air pressure increases and rises to the top of the tube spinning the tur-bine blades thus generating power.
At the exterior of the solar pavilion is a series of solar panels that capture the sun’s energy and powers the pa-vilion and its multiple programs. The solar panels mechanically rotate perpendicular to the sun to maximize its exposed surface area. In addi-tion, a large atrium lies in the center of the pavilion and there are several levels assigned for exhibition space.
The wind pavilion functions as a wind turbine as well as an observa-tion tower. Visitors are able to ac-cess the very top of the pavilion and observe how the turbine harnesses the energy from the wind. Suspend-ed fl oors in the pavilion function as exhibition spaces and observation decks with views towards Brooklyn, Manhattan and the Hudson river.
Competit
ionNature
Human
In Between
PAVILIONS•NATURE
- Hydro- Clean- Solar- Wind
•SEMI-NATURE- Fish Farming- Food Farming
•HUMAN- Fossil Fuel- Bio- Nuclear
AREA COMPOSITION GREEN CONNECTION & CIRCULATION
Park Levee
Site
Courtyards
Expo 2014 Pavilions
Soft Edge
Paths
Park Levee
Courtyards
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Location: Bloomfi eld Hills, MIProject Footprint : 59,633 ft²Building G.F.A : 42,330 ft²
Problem
Access
New Access for Folding
Indroduc� on Stage
FOLD TO ACCESS
ACCESS AXIS
BUILDING AXIS
Too Much Stairs are needed for access
Interac� veEnvironment Stage
An� cipatoryProvisional Stage
Educa� on
Curtain wall Column
Frame Structure
Window Frame
Window
Rest and View Stage
Narrative Trajectory Adjust Phase
Rhythm of story
SITE ANALYSIS ACCESS CREATION MASS COMPOSITION
Lake view for Public
Offi ce
Publicspace
IntermediateSpace
Theater
Facilities for Actor
Static Zone Dynamic Zone
Priv
ate
Zone
Publ
ic Z
one
MAIN ELEVATION STRUCTURE
INITIAL MODELS FINAL MODELS
PROMENADE PROGRAM
Fall 2009
Performing Theater Project
09’ Studio Project
The Performance Theater in Cranbrook School
INTERACTIVE with EDUCATION ZONE
ENTER To the MAIN BUILDING
LAKE VIEW LEVEL
ENTRANCE LEVEL
Performing
Promenade
Band Shell
2nd FL. PLAN
1st FL. PLAN
B1 FL. PLAN
B2 FL. PLAN
Parking Lot
Break and Start
VISTA CIRCULATION(Viewer)
PERFORMING CIRCULATION(Actors, Audiences, Staff s)
ECO CIRCULATION(Animals, Bugs, People)
Interact with Envionment
Play
Vista
Fold to access to the auditorum
SITE PLAN
PLAN CAD
PLAN AXONOMETRIC PROJECTION
PROMENADE ZONING PROJECT ZONING
Studio
Work
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Fall 2011
Standard Chicago Lot Project
Location Chicago General lotSite Area 9,225 ft² (4,012m² )G.F.A 2,880 ft² (2,154m²)
One partition in SPACEConsidering Points
• Proportion• Proper Size to control the space• Space is divided by structures• Reintegrate the space with wall• Volume may be cut the space, and wall be integrate the space
Program• Living Room• Master Bedroom• Kitchen and Dining• Guest Room • Den• Secured Foyer• Power room in entrance
PLAN Development Process Broken Private Space, No privacy at Guest room
Planing Point• Flow spaces• Bookcase as partition• Foyer - Be separated from others - Powder room and toilet - Block ones eye(delivery)• Do not place furniture along wall because wall also strong ele-ment to control the space
Partition has column in theirs cen-ter is too rigid to place in the space
In order to control the whole space, proper size of wall is needed. Small
wall cannot control in big space
PLAN COMPOSITION
DEN and MASTER BED
LIVING ROOM
KITCHEN and DINING
24’
24’
24’
24’
24’
11’ Studio Project
Tw
Wvo
HOUSING PLAN on Chicago Standard Lot
Studio
Work
wo partition in SPACE B&W partition in SPACE
Visual Training with three partition
Partition and core in SPACE
hen dividing space, keep in mind to oid to generate unusable size of space
Compare with the two right walls, the under one is more proper size to dominate space
Long and wide wall propose directivity of space, and a small and
short is sat in the space like as sculpture
North View
South View
Site View
Den(Guest room)
Kitchen
Dining
Living Room
Entrance
Master Bed Room
24’ 24’ 24’
Interior Perspective Collage
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Seoul City Hall
Client : Seoul Metropolitan GovernmentLocation : Taepyeongro, SeoulTotal Floor Area : 925631.71 ft² (85,994 m²) 21 stories above ground, 3 stories below ground
Competition Prize Winner
Spring 2012
Standard Chicago Lot Project
Design Idea Competition
Flow, Flexibility, Freedom
This means continuity of various spaces as a concept of mental and physical fl ow, connection and communication. A new city hall offi ce building has fl exibility and incites an open mind and future-oriented originality of citizens and users of the building, and extends a degree of thought by off ering opportunity to experience various space as well as structural characters.
Renewal, Rehabilitation, Renovation
The harmonious appearance of existing city hall offi ce building and new offi ce building do not impair the historical meaning and symbolization that their exterior views and of-fer new living force by making the potential power with new internal program at most. The independent design of new offi ce building brings out the beauty of archi-tecture by invoking the synergy eff ect between existing and new buildings.
Environmental Consciousness
Utilizing the concept of nature in urban center, the size of the buildings is minimized, and 76% of ground area is off ered to citizen as landscape and leisure spaces. The buildings can be the center between the open spaces of urban Seoul by expanding the natural environments of Deoksu Palaces.
Symbol, Sign
While existing offi ce building stand for the dignity of authoritarian-ism, new offi ce building stand for the people who are the real hosts of a building by fi lling its spaces.
Nature fl ow & the Urban Center
Inner Open Space
Outer Open Space
Worker’s Path
Public’s Path
Plan for thr
Expand
Profe
ssio
nal W
ork
High Technology, Hyper Text
The main concept for construction design of new offi ce building is harmony between high technology of IT powerhouse and nature. Double Skin blind system induced on the southwest of the city hall controls the local climate, while solar battery plate can prepare alternative energy resources, and restoration feedback water system uses rainwater to minimize the maintenance cost of interior garden.
ree dimensional aff orestation
of Duksu-Palace’s Green Break down boundaries Easy Access through Public transportation
B1 FL. PLAN
Book Cafe
Adult Education
Plaza
Exhibition
Existed City Hall
Offi ce Offi ce
Civil Service
Roof Garden
Offi ce
Open
Conference room
Conference room
Cafeteria
Mech.Conference
Room
Conference Room
Conference Room
11th FL. PLAN
PARTIAL SECTION
18th FL. PLAN 20th FL. PLAN
3rd FL. PLAN
Release tension by Dividing the Mass
Skyline
Mobile Flow
Conversation with the Circumference
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But it is necessary to have Alleys in a city and it’s also necessary that there be a small empty space almost mee� ng by accident at the end of the alley. The mee� ng between a person and a person, the combina� on of a job and life and the workplace that we don’t want to leave …it’s our Dream.
Hyper O� ce should be a good deal more than a large and elaborate � oor. Our trip will be recovered and the space will be arranged. Closed � oors breathe and communicate with each other.
March 2007
Offi ce Building
Location 649-2 Gaksan-dong, Dong-gu, Deagu, KOREA Project Area 43,184.81ft² (4,012m² )Building Footprint 23,185.46ft² (2,154m²) Total Floor Area 32,553.72ft² (3,024m²) 71,806.37ft² (6,671m²) 104,360.09 ft² (9,695m²) Building Ratio 53.69% Floor Area Ratio 309.7% Parking 60 Space
NHN Venture Tower
Interplay between storiesPortal Stage means void space arranged across all � oors and this will be posi� oned on the basis of 3~5 � oors as a ver� cal space where it is possible to move without an elevator. Each stage is composed using the human being’s 5 senses in order to realize analogue sensi� vity distributed in digital space.Each stage is connected with stairs and can jump from one stage to another using a shu� le elevator.
Sequence
REFRESH ZONE
REFRESH ZONE
PUBLIC ZONE
PARKING
Informa� on & Security zone
Visitor ENT.
Seperates the enter-ance Vistors & Sta� s
Event plaza space Expands into Hall & Convinient shops throught Sunken.
Design Proposal
Mechanical mbetween � oors b9 to 5 and unifhave disappeareand we can get bDelivery o�is a city where aTrip is disappear The elevator in t up to in front of
Total area will be designed and the interior and exterior boundary of abuilding on the ground � oor will be removed. Thus, the public place will be expanded by covering the front public square, 1st � oor of under-ground, 1st � oor of ground and 2nd � oor of underground. Various trips, experiences andnew ac� vi� es will be created.
Interplay between inner & outer
Events, ac� vi� es of portal stageand ver� cal trip passing through whole building of portal stage can be traced out on Skin. A building can have a conversa� on with the circumference using the Skin. Func� onal front side has a role of a signboard for mutual communica� on between a corpora� ons and customers. This signboard is completedby a green wall lighted from over the Skin.
Interplay between building & Circumference
movement by center core of � oors formed space d,
back to our life a� er escaping our workplace. � ce ll roads are high-way. ed and only a func� on survives.
he lobby is a kindly car to deliver us promptly f our desk.
Adver� sing SkinPotal Theme Event Skin
Light up slit of two mass
Green Filter
TASTE
RESTAURANT, SNACK BAR
FITNESSINDOOR CLIMBING
AROMATHERAPY, HERBTHERAPY
KARAOKE, MUSIC HALL
THEATER, EXHIBITION
MULTYPURPOSALHALL&PUBLIC SPACE
TOUCH
SMELL
HEAR
SEE
- By planing a green fi lter composed of a Plant- Comportable offi ce circunmstance - Green Elevation
Th rough transparent window People’s Motion is to be an important elevation factor
As a symbolic shape, view target
Portal Stage
Show Room
Advertising Skin
Transparent Wall
Tree Image
Profe
ssio
nal W
ork