Wokring sample
description
Transcript of Wokring sample
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YINAN ZHU
2016 Work Sample
Washington University in St. Louis
M. Arch
e-mail: [email protected]
tel: 314-808-5373
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01. Folding Gathering HouseBetween 2 existing houses, a new residential buidling is demanded by 2 students who have enthusiasm on sociallife. Within the need of public space for holding group of people and 2 hosts privacy, the house was designed tobe a continuous flow from public to private. To emphasize the dynamic and variety use of space, fold language was used to offering people a positive feeling in the house.
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5 6 7 8
Program Raising
Fold to Views & Expand
Site & Keep through
Keep Private Back
Sucking into Volume
Main Folding Structure
Back View & Poping
Substructure & Furniture
MAIN SECTION : FLOW From PUBLIC To PRIVATE
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UP
UP
UP
Public Party SpaceStreet
Alley
Ground Floor Plan
N
1/4" = 1'- 0"
Section A
Section B
UP
UP
UP
DN
UP
Restroom (threshold)
Kitchen
Bar
Counter
Private Party Space
DN
UP
UP U
P
UP
StreetA
lley
Second Floor PlanN
1/4" = 1'- 0"
DN
DN
Balcony
Bedroom
Bedroom
StreetA
lley
Third Floor PlanN
1/4" = 1'- 0"
Alley
Ground Plan : Public 2nd Plan : Semi Public & Threshold & Semi Private 3rd Plan : Private & Terrace
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475 units $ 1,600,000262 = 79mRadius = 135 = 41m
150 units $ 500,000132 = 40mRadius = 66 = 20m
Radius = 12 = 2m 1 unit $ 35,000
Vestas NM82 1,650 kW
Zond Z-40-FS 500 kW
Bergey Excel 10 kW
Hawt scales of wind power
average unit energy = 3.2kw
1 32m rotor diameter 803 m2 350kw
1 28.8m rotor diameter 651 m2 300kw
1 25.6m rotor diameter 514 m2 200kw
1 22.4m rotor diameter 394 m2 180kw
1 19.2 m rotor diameter 289m2 170kw
2 16 m rotor diameter 201m2 300kw
3 12.8 m rotor diameter 129m2 300kw
6 9.6 m rotor diameter 72m2 420kw
7 6.4 m rotor diameter 32m2 210kw
20 3.2 m rotor diameter 8m2 200kw
total energy 3090 kw for almost 1000units
3.2 6.4 9.6 12.8 16 19.2 22.4 25.6 28.8 32Num Sacle Area Energy diameter
420 kw
16 6.4m rotor diameter 73m2 460kw
6.4
460 kw
hrs
North
0 5 10 15 20 25 30 35 400
200
400
600
800
1000
1200
1400
1600
1800
2000
0 4 8 12 16 20 24 28 320
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average wind speed in a year = 29km/h = 8m/saverage wind gusts speed in 173 windy days= 60km/h = 16.7m/sFormula : ux = ur(zx/zr) = 0.143
Power(kW)
Cut-in speed
Rated output power
Rated output speed Cut-out speed
3.5 14 25
Steady wind speed (m/s)
8
Wellingtonmean speed
energy
height
1 32m rotor diameter 803 m2 350kw
1 28.8m rotor diameter 651 m2 300kw
1 25.6m rotor diameter 514 m2 200kw
1 22.4m rotor diameter 394 m2 180kw
1 19.2 m rotor diameter 289m2 170kw
2 16 m rotor diameter 201m2 300kw
3 12.8 m rotor diameter 129m2 300kw
6 9.6 m rotor diameter 72m2 420kw
7 6.4 m rotor diameter 32m2 210kw
20 3.2 m rotor diameter 8m2 200kw
total energy 3090 kw for almost 1000units
3.2 6.4 9.6 12.8 16 19.2 22.4 25.6 28.8 32Num Sacle Area Energy diameter
420 kw
16 6.4m rotor diameter 73m2 460kw
6.4
460 kw
hrs
North
0 5 10 15 20 25 30 35 400
200
400
600
800
1000
1200
1400
1600
1800
2000
0 4 8 12 16 20 24 28 320
10
20
30
40
50
60
70
80
90
100
average wind speed in a year = 29km/h = 8m/saverage wind gusts speed in 173 windy days= 60km/h = 16.7m/sFormula : ux = ur(zx/zr) = 0.143
Power(kW)
Cut-in speed
Rated output power
Rated output speed Cut-out speed
3.5 14 25
Steady wind speed (m/s)
8
Wellingtonmean speed
energy
height
02. Wind Energy SkyscraperLocated in Wellington, the windiest City in the world, this Skyscraper was designed to take advantage of the local feature as energy resources. As a new iconic building in the capital of the country, this tower is not only a research center but also a headquarter of energy department, but also a education base offering public multiple activities helping people understand wind.
Wind Turbines Study
Site & Calculation
Mass & Material
Short Section& Wind Diagram
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Located in Wellington, the windiest City in the world, this Skyscraper was designed to take advantage of the local feature as energy resources. As a new iconic building in the capital of the country, this tower is not only a research center but also a headquarter of energy department, but also a education base offering public multiple activities helping people understand wind.
Main Plan
Level 60 Plan
Level 45 Plan
Level 30 Plan
Level 8 Plan
Offices
Labs
Documentation Room
Observation
Bottom to Top : Massive to Light
Auditorium
Education
Offices
Gym
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This corridor was designed for young artists who want to find opportunities in Seoul, the capital of South Korea.Cheonggyecheon is a renewal project allows people enjoying the steam in the city under artistic atmosphere.The corridor is not only houses for young artists, but also a place for them to know each other and exhibit the works to public. The young artists can also take advantege of leasing billboard to improve their art lives.
03. Youth Artists Corridor
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Retail View Through &Ads Reflection
Circulation Rasing &Connection
Void & Mass Spaces
Units Shifting
Commerial to Arts
Corridors Connection
Corridor facade : Response to Urban
Main Section: Arts Corridor
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concrete
concrete
inverted lip brick
insulation
Glass
steel joint
wood Floor
steel Anchor
wood bracing
bison roof deck
railings
nish concrete
roof insulation
railings
window connection
wood roof
Main Plan Detail Section
Unit Component
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Detail Plan A
Parking Lot
Original Forest
City GridsDetail Plan B
Scale: 1 = 100-0
N
Preservation Oce
Ambigous Boundary
04. Preservation ParadoxNational City, which used to be a well-known industry city, has been a abandoned place containing lots archaeology resources. Under the publics demand of turning the land back to green, the paradox occurs between using trees as tool to preserve the land and using asphalt to keep the remnants beneath ground.The new Landscape of pattern not only raised to deal with the paradox, but also attract unexpected user groups.
Main Plan
GrowthPhase
MaturePhase
Tree Tool
Ruderal Zone
Asphalt Tool
User: Bird
User: Deer
User: Reptile
(Landscape)
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Partial Plan
Human User Groups Expectation
Total Nature vs. Total Asphalt vs. Hybrid Tree&Asphalt
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05. University Convention CenterHosted by Science and Technology University of South China, my team was invited to bid a newConvention Center in the corner of the campus - on a mount. Considering the nature condition, our team decided to keep part of the mount and make 2 peaks to be the view joints. Takeing advantage of the terrain, the roof of the hall could be a continuous landscape of nature.I mainly took charge on study concept model and drawing conceptial diagram and program diagram.
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Facade towards Campus
Programs Circulations
Mount Peaks Views
Void Lobby Spaces
Mount Expansion
Flow of Nature to Campus
( project during internship )
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Hosted by Science and Technology University of South China, my team was invited to bid a newConvention Center in the corner of the campus - on a mount. Considering the nature condition, our team decided to keep part of the mount and make 2 peaks to be the view joints. Takeing advantage of the terrain, the roof of the hall could be a continuous landscape of nature.I mainly took charge on study concept model and drawing conceptial diagram and program diagram.
06. Tyson Plants Research CenterTyson is a park governed by Washington University for observing the creates habitats. The site impressedme by rich changes under different seasons. This drove me to conceit a dream feeling of experiencingdifferent beauty in different nature condition. Concerning the scientific research method of controlexperiment, the different enclosed bubble space was designed to cultivate plants under differentsituations such as quantity of light, exposure to wind, etc.
Site Narrative Main Plan hand drawing
Section A hand drawing
Section B hand drawing
Space Unit Explosion
Theme Narrative
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Library FurnitureThis transformed column was designed a book shelf for a library. Outside the column, the wave of the geometrycould be supporting for books. Inside the column, main structure of the library was hided by the geometry. Andalso the adequate space inside could be storage of books. Strong reflective metal was used as material cause it willemphasize a future and high-technology feeling on the readers. Circle light tubes impress the column stronger.
Molting InstallationImaging the molting process of a ice cube, I assume the process could be simulated. The diagram shows how asphere penetrate a cube from the corner. Different size of the sphere could cause different geometry condition of the cube space. From light space to heavy enclosure, a grids of this cubes could form different surfacequality. By intersecting these surfaces, the geometries themselves could work well with shadows making the effect look same as water reflection.
BRT Transit BridgeThis bridge was designed to be a connection between a parking deck and a main BRT station. Due to the crowdcar flows during morning and afternoon in downtown area, office workers could park their cars in the deck andtransfer to taking bus rapid transit, a rapid bus service that buses have their own road. Not only perform a bridge,the facade of the bridge could react to the sun and around environment. At night, the adequate bridge could bea iconic of the boundary between downtown and suburb.
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ANOVA Furniture Competition
Cellular Transformation: fibroblastsFibroblasts is a cell in connective tissue that produces collagen and other fibers. I tookthe fibroblasts cell in lung tissue as an example to study the cell components. Throughthe study of the cell, a new understand of architectural space came to me.This experiment inspires me how a closure space transform and connect to others
Main Plan
Orhcard Scenario Quarter Furniture Unit
Hosted by Local furniture firm, ANOVA, I took part of the competition of furniture design with landscapedesign of an orchard. The flood plan makes the irrigation more important for a orchard. Our team designedan apple orchard and engaged the irrigation pipe into the furniture. The furniture itself was a quarter circle.This geometry offering different opportunity to combine them. And the pipe under the furniture could coolthe people in the summer. This project won 1st prize and I took part in concept design and furniture design.