Portfolio of Chohao Victor Wu_ 2009 - 2021 by ChoHao Wu

media tor inter face

2009 - 2021

portfolio CHOHAO VICTOR WU

Architect + Landscape Architect + Urbanist as the

MEDIATOR Architecture + Landscape Architecture + Urban Design as the

INTERFACE

MEDIATOR X INTERFACE My exploration between architecture, landscape architecture, and urbanism started right here in my country of Taiwan. Growing up on this beautiful island, I have come to marvel at its architectural and landscape complexities – a result of its recurring and devastating natural cataclysms. I have experienced the great destruction caused by earthquakes and typhoons, seen the countless temporary shelters for victims, and witnessed the endless rebuilding. It is this constant stream of unforgettable scenes of dilapidation and suffering that sparked my interest in exploring the relationship between urban, landscape architecture, architecture, natural environments of both natural and political causes, and its refugees. I have always seen myself as the 'mediator' between human and nature – the person who use architecture, landscape architecture, and urban design strategies as the 'interface' to create gentle and smooth connections between the two extraordinarily different substrates. I have been searching for how best to reconcile this complex intersection by working on various projects that shown in this portfolio. While natural disasters and man-made destructions are neither controllable nor predictable, cross-disciplinary designer has the ability to flexibly and effectively respond. In 2016, I founded Atelier TBD, a studio that explores potential possibilities of all kinds of environmental challenges and respondes via diverse fields of professionals, including graphic, architecture, landscape, urban strategy, curation, ergonomic support, animation, publication to name only a few. I aim to continue my adventure as well as to assist the countless others who need a better mediator and an interface with their environment, whether natural or manmade.

V XII

index

O A

29 40

49 60 61 64 65 66

13 28

41 48

R I

H R

C A T

A C

U T

A U I

U W

67 82

W T

83 86

A W

2020 Curation PROJECT

PRoject 000 +

2020 Open House Taipei A Micro Intervention in a Macro Scale Chief Executive Officer and Curator / Chohao Victor Wu Execution Office / Atelier TBD

2020 / Professional WORK

Site / Taipei, Taiwan

Originally from London, Open House is one

control center for the Taipei Metro system,

of the most significant architectural festivals

Garden City, Taiwan Design Research

worldwide. During the two-day Open House

Institute's office, Judicial Yuan, and the

event, visitors are able to explore those

construction site of a new metro route that's

secret, private-owned spaces, or places that

8 floors below ground level.

are not open to the public. Open House Taipei also participated in After 18 months' effort, Open House Taipei

the first 48 hours Open House Worldwide

received the official authorization from

Forum, sharing the different perspectives of

London and took place in Taipei for the very

Taipei from the historical, cultural, and even

first time in 2020. Taipei also became the

technological point of view, especially under

third 'Open House City' in East Asia.

the pandemic period.

In 2020, Open House Taipei was very proud to be opening up 73 sites, ranging from private-owned to governmentowned, construction sites to completed

Intro Video

projects, offering a variety of activities,

*This project received 2021 Golden Pin

from handcrafts to treks, from panels to

Design Award Mark

performances. Such as the operations

2020 Curation PROJECT

VII

about open house taipei 3rd city i n asi a 1st time i n Tai w an 7 3 Open si tes 5 0 0 vol unteer s 5 0 , 0 00 vi si t ors 1, 50 0, 0 00 C li c k r at e n o g ove r nment al f u ndi n g

Make everyone be part of the cityscape influencer Open House Taipei cordially invited the general

During 2020 Open House Taipei, we collaborated

public free of admission to those 73 exclusive spaces

with more than 500 volunteers, more than 4.5

hidden within Taipei, allowing people to better

thousand visitors visited those 73 sites, with more

understand the city, the construct of its everyday

than 1 million click rate for our online website that

life, bridging the gap between professionals with the

allowed everyone to explore those sites via our

people of Taipei, allowing everyone the opportunity

website.

to participate in and shape the built environment of Taipei.

VIII

2020 Curation PROJECT

The most famous 13 sites

M u s eu m of D r in k i n g Wate r G uany i n s h a n R e s e rvo i r

S taff only club

T ai p e i M e t r o O p era t i on s C on t r ol Ce n te r

n ational theater & concert hall, Tai pei

r eg en t t a ip e i p r es id e n t s u i t e

K u xury logico

C h E-la m P r es b yt e r ia n C h u rch

k i m pton da an hotel

T ai p e i B ot a n i c a l G ar d e n S tati o n T R T S W a n d a - Z h on g he - S hu l i n L i n e

s i u-s i u la b of p r i mi ti ve s e n s e s

JCA living lab

t ai w a n d e s i gn r e s e ar ch i n s ti tu te no t j u s t li b r a r y

room X

M. LA, YEAR 1, STUDIO PROJECT

PRoject 001 +

Re-Estuary City A Symbiotic City Prototype Between Human and Mussel Instructor / Jill Desimini

2017 / collaborative WORK / 3 MEMBERS

Site / Boston Harbor, MA, USA

This project focuses on using Boston Harbor

structure, to create a self-sustainable system.

as a site to develope a new adaptive city

Our aim is not to fight against nature, but

prototype in respond to the sea level rise.

to get prepared by designing a series of path

After analyzing the entire ecological system,

that allows all species to gradually rearrange

including the living patterns of animals

their habitats when the water table rises. Our

and plants, the tidal changes, the original

urban fabric, on the other hand, is built on a

topography and watershed, we decided to

grid system that is 30-degree angle rotated

use one of Boston Harbor's main native

in relation to the shadows the buildings cast

marine species, blue mussel, as the main

(maximizing sun exposure/mussel growth)

drive in creating a series of new landform

and the direction of prevailing winds. we

and ecological barriers to manage a new

also continuously used Bradley Cantrell's

urban landscape and demonstrate an ideal,

geomorphology table to examine the actual

symbiosis system between human, man-

change of the landform under the water

made and natural environment.

effect during the design process.

Instead of designing the infrastructure, we

This project expresses how landscape

started by assigning the base condition of

architects can use critical analysisand

the landscape. We adopted plants as "Land

landform as tools to provide a better co-

Stabilizer", blue mussels as "Land Builder",

existing environment for all the habitants

and a well-designated landform and soil

and natural challenges.

D / DOWNSTREAM OF RIVER

B / EGRET LAKE

C / TWINPONDS CHANNEL

D / BLUE MUSSEL RIVER

e / SPRUCE GROUND

F / INLAND URBAN AREA

INLAND BOSTON REGION SEA SIDE

M. LA, YEAR 1, STUDIO PROJECT

HISTORICAL & ENVIRONMENTAL CONTEXT ANALYSIS 5KM

10KM

15KM

20KM

25KM

30KM

Land and CSO

Land and CSO waste Land/CSO Waste waste discharge discharge

Urban site condition Land and CSO discharge

URBAN SITE

Fresh water tributaries to Massachusetts Baywaste

Fresh water to and CSO transition site wasteUrban discharge WASTE DISCHARGE Saline water condition Land and CSO waste Land saline discharge in Massachusetts Bay

The Boston Harbor region was previously rich

longitudinal and transversal direction.

with many estuaries along the ocean’s edge

this landform and the planting plan, we

where had many codependent species and

to control both the topography change

Storm surge a large FreshUrban watersite to Fresh water tributaries condition estuary FRESH/SALINE to MassachusettsWATER Baysaline transition

variety of animal and plant life. The

salinity of the water.

existed due to the mixing of fresh water

from rivers and runoff with salt water from

In the last phase, we input the Blue

the sea. With Boston’s landfill history, these

and developed an overall system that

estuaries were lost despite being particularly

entire eco-system which includes all e

resilient to change over time.

and participants with the consideratio

different time period. In this project, w Through the analysis of animals and plants and

Fresh water to Storm surge the saline transition

Saline water in Massachusetts Bay

WASTE DISCHARGE 3

cross-section, different water systems are

managed and guided through gradient in both

recreating an estuary but using these

characteristics to create a highly ad urban condition.

CSO Outfall Closed cso outfall remain cso outfall 25 year storm control existing pump station existing cso treatement facility

001

Barn Owl

012

Oyster

023

Sea Blite

002

Least Tern

003

Snow Owl

004

Cormorants

005

Least Tern

Moon Jellyfish

016

Lobster

006

007

Common Tern

008

Yellowfoot Gull

Heron

009

010

Herring Gulls

011

Brant

Great Egret

013

Mussel

014

Balanidae

015

017

018

Crab

019

Seabass

Bluefish

020

Weakfish

031

Mangrove

[ 025 ]

decommissioned cso

[ 024 ]

existing headworks 021

022

Scup

Winterflounder

By using

Reed

[ 033 ]

[ 031 ]

[ 030 ]

[ 029 ]

[ 032 ]

033

Black Mangrove

[ 028 ]

032

[ 027 ]

[ 026 ]

[ 023 ]

[ 022 ]

Periophthalmini

[ 021 ]

030

[ 020 ]

Bacteira

[ 019 ]

029

[ 018 ]

Algae

[ 017 ]

028

[ 016 ]

[ 014 ]

Plankton

[ 013 ]

[ 011 ]

[ 012 ]

027

Seaweed

[ 010 ]

[ 008 ]

[ 009 ]

026

Sumac

[ 007 ]

025

[ 006 ]

[ 005 ]

[ 004 ]

Saltwater Cordgrass

[ 003 ]

024

[ 002 ]

[ 001 ]

existing conduct/ pipeline/connection

[ 015 ]

facility

[ Spring ]

e are able

[ Summer ]

e and the

[ Autumn ]

[ Winter ]

e Mussel connects

elements

on among

we are not essential

daptable

M. LA, YEAR 1, STUDIO PROJECT

TAXONOMY X PROGRAMMING

{ Mountain Area }

+200 Meter

Pavilion

5*5 = 25*6 = 150m2

Water Dam / Controlling Facility

Alpine Shelter

15*12 = 180m2

Marsh Elder

Community Center Tea Farm

3000m2

Clam Factory

Salt Factory

30*24 = 720 m2 * 6 Units = 4320 m2

26*75 = 1950m2

Vehicle Parking Area

Sweet Pepperbush

2400m2 (120 Units)

6750*2 = 13500m2

120 Units

180*6 = 1080m2

Bicycle Parking

Salt Mountain

Eastern Red Cedar

100*100 = 10000 m2 *3 = 30000 m2

10500m2

Grocery Store 720m2

Skateboard Field

Youth Hostel

1800*3 = 5400 m2

Outdoor Sculpture Museum

2100m2

18000m2 Bridge / Tourist Path

Outdoor theatre

7272*2 = 14544m2

Riverbank Park / Skiing / Snowboarding Resort

Bicycle Parking

2592m2

Urban Farming

Swamp Oak

640m2

40000m2

Camp Site

Salt Producing Pool

140000 m2

11492m2

60*60 = 3600m2 *10 = 36000m2

Restaurant

Coast Oak

1990m2

6000*3 = 18000*3 = 54000 m2

60*50 = 3000m2

Locker Room / Service Center 432m2

Desalination Factory

Samphire Farm

30*30 = 900*15 = 13500m2

30*80 = 2400m2

Storage Warehouse

Clinic Center

Hot Spring Spa Center

Aquarium / Bird Watching

1250m2

153*40 = 6120m2

3300m2

Parking Area

Intertidal Pool 3000m2

Outside Swimming Pool

Kayaking Facilities

30*30*3.14 = 2826 m2 24*24*3.14 = 1808

1640 m2

Ecological Barrier

Monitor Station

3024 + 2592 = 5616m2

Clam Harvesting / Collecting

1920m2

54800 m2

7*10 = 70 m2 * 50 Units = 3500 m2

Ocean Side

Hot Spring Spa Pool

220*700 = 15400 m2

Ecology Islands / Animals Habitats

Estuary

[ Sea Water ]

Salty Water

[ Intertidal Area ]

[ Fresh Water ]

Fresh Water

Mixed Water

[ Waste Heat ]

[ SEA WATER ] Outdoor Swimming Pool Locker

Desalination Factory

Camping Site

Parking Lot

- Blue mussels help limit algae growth. - Reproductive output is influenced by temperature, food availability, and tidal exposure and can therefore vary from year to year and from place to place. - Mussel needs 12-15 months to become mature > 50mm - Mytilus edulis, common name:”blue mussel” - 5-20°C / 41°F-68°F - Salinities > 15% - 1-10 Meters / 3.28-32.81 Feet - Metamorphosis period is effected by the water temperature: 10°C - 1 month Tea Factory Tea Farm

Business / Office

Ecological Island

Pavilion

Youth Hostel

Mussel Farm

Reused Shell

Urban Farmland

Skateboard Field

Reservoir

Sewage Treatment Pool Ecological Pool

[ FRESH WATER ]

Animal Habitat

October

September

August

July

June

May

April

March

February

Controlling Salinaty Water Dam

Mussel Barrier / Cage

Restaurant

Plant Habitat

Resting gonads begin to develop

Spawn Period

Estuary Park Reused water

Salt Mountain

Tourist Activity

Primary larvae spawn

Basketball Field

Path / Circulation

Salt Factory

Mussel Factory

Phytoplankton blooms

Outdoor Sport Facility

Service Program

Outdoor Hot Spa Grocery Store

Monitor Lab

Best mussel harvesting period

Gametogenesis

Ecology Related Residencial

Clinical Center

Salt Mountain

Jogging Route

Inland Side

Secondary larvae spawn (opportunistic) Bird Watching Center

Restroom

Staff Office

Retail

Private Housing

Social Housing

Outdoor Sculpture Museum Hospital

Library

Firestation

Parking Lot

Elementary School

Community Center Kindergarten Junior High School

December

200*6 = 1200m2

Fresh Water Reservoir

120 Units

November

{ Sea Area }

6080m2

Sea Level +0

January

Parking Area

Community Service

640m2

Daily Input

{ Ground Area }

Emergency Space

1920*7 = 13440m2

6750*2 = 13500m2

8*60 = 480 m2

1950*2 = 3900m2

211*36 = 7596m2

4500m2

Jogging Route

A:60*60 = 3600 B:40*33 = 1320 m2

Tea Factory

27324m2

Plaza

Service Area

Plaza

Alpine Shelter

15*12 = 180m2

SERIAL SECTION X PLANTING PLAN N Coontail 1

Old Boston Building

Glassworts

URBAN

American Beech

Pitch Pine

Switchgrass

Sea Rocket

Broomsedge

Beach Plum

Marsh Elder

Sweet Pepperbush

Planting + Coastal Building

Norway Spruce

Walter Millet

Bayberry 11

Groundsel Bsuh

Wild Blackberry

Flowering Dogwood

Marsh Fern

12 13

Sweet Flag

Iris Versicolor

Flat Land Zone

Canada Rush Soft-stemmed Smooth Bulrush Cordgrass

S 1

Coast Oak Sea-side Arrow Grass

SEA

Norway Spruce

Mussel Farm

Shed Bush

Mussel Factory

700 METERS

ESTUARY

Mock Bishop-weed Black Cherry

New Coastal Building

Curly Pondweed

4 5

White Oak

Estuary Zone

Eastern Red Cedar

Seaside Goldenrod

Red Maple

Salt Hay Grass

Tussock Sedge

Sycamore 10

Coastal Zone

Phragmites Swamp White Oak

Bushy Pondweed

Silverweed

M. LA, YEAR 1, STUDIO PROJECT

Riverbank Park Riverbank Buffer Zone / Open Space / Detention Pool

Camp Site

Dynamic Small Mussel Cage

Pine tree forest / Potential mussel habitat ecological islands / Bio-diversity habitat for animal migration

Coastal Residential Unit Mussel Farming / Self-sufficient Wood pile foundation as potential mussel habitat /

Mussel

Shadow c Young m Providing for the m

Ecological islands formation & deformation / Dynamic forming pattern / Soil Fixing

Inland City

Rugose Rose /

Wild Blueberry /

Salt tolerance + Sand and soil fixing + Primary dune

Salt tolerance + Lower height + Secondary dune

Field Maple / Acer Campestre Salt tolerance + Sharp Outline + Deciduous

White Oak /

Salt tolerance + Great Cano Strong Soil fixing ability

l Factory

change / mussel farm / g waster shell mussel cage

opy +

Mussel Farm Mature mussel farm / Periodically tidal change /

Main Current Entrance

Pine Tree Forest

Salt water / Estuary area Large Mussel Cage / Water Filtering

Blocking the North-East wind in winter / Potential mussel habitat / Soil Fixing

Sea Side / Boston Harbor

MUSSEL FACTORY AND BRIDGE

BUILDING VOLUME X TOPOGRAPHY

MUSSEL FARMING X FACTORY

Ponderosa Pine / Western Yellow Pine Salt tolerance + Windbreaker + potentail mussel habitat

Water

Wetland Area 0 5 10

30 M

CAMPING SITE X TOPOGRAPHY

M. LA, YEAR 1, STUDIO PROJECT

INLAND

REFILL BY RAIN WATER /SNOW

FUTURE ECOLOGY ISLAND FOUNDATION

BUILDING STRUCTURE Water Purification Top R=3-8CM Middle 1R = 10-15CM Middle 2R = 15-20CM BOTTOM R = 20-CM

PINE TREE

BUILDING STRUCTURE

Abandoned Structure Concrete / Steel Porous Surface Habitats for Plants & An

GABION BARRIER

120*45*30cm PebbleΦ=10-30cm l-Shape Steel

792

JOGGING ROUTE +852CM 165

SEA WATER LEVEL AFTER 100 YEARS

MARINE PLANTS / EDIBLE / URBAN FARM HIGH TIDE SEA LEVE 212

UNDERGROUND WATER ROCK PLATE

UP: DETAIL A-A' SECTION FROM SEA SIDE TO INLAND CITY down: CROSS-SECTION STUDY MODEL

LOW TIDE SEA LEVEL

REFILL BY RAIN WATER /SNOW

Fresh / Salt Water Fine Clay Organsim Habitats for Animals

UNDERGROUND HABITATS

Fresh Water Control Sea Water Depth = 210CM

Animal habitats / Path Crabs / Periophthalmini

SWITCHGRASS / SESIDE GOLDENROD

TOURIST PATH Buffer Zone Ply Wood C-Beam

ECOLOGY BARRIER Water Filtering Water Control Porous Surface 102

240

360

FINE CLAY

SEA MAIN ECOLOGY ISLAND / CAMP SITE

BARRIER FOUNDATION 120*60*6CM Stainless Steel Pre-module Plate Reinforced Screw

CAKILEEDENTULA

200

HIGH TIDE SEA LEVEL

210

PONDS

120 210

PONDS

237

120

REFILL BY RAIN WATER /SNOW

E EL

Intertidal zone

DETENTION BASIN

45*45*20CM Waste Oyster / Mussel Shell Porous Surface Water Purify Erosion / Refilled

BUILDING STRUCTURE Water Purification Top R=3-8CM Middle 1R = 10-15CM Middle 2R = 15-20CM BOTTOM R = 20-CM

PONDS

nimals

WILD BLACKBERRY

OYSTER / MUSSEL SHELL BARRIER

+410 CM

LOW TIDE SEA LEVEL

M. LA, YEAR 1, STUDIO PROJECT

Young Mussel

Intertidal Zone

Housing Unit

High Tide

Low Tide

2017

Sea

Land

Ecology islands Animals’ and Plants’ habitat

LAND FORMING & MAINTAINING

Section / Year 2018 Mature mussels start to attach on the cage

Collecting and cultivating in cooler area

On-bottom settlement Mussel bed formation

Sandy Base Plan

Directly building the mussel bed / landform

Ecology cage + Mussel shell

Section / Year 2070 New circulation system appear

Growing pattern 1 Trochophore larvae Sandy Base

Refill by waste mussel shell

Plan

Circulation system 10-20 Years

Estuary Area Small mussel cage as node to create ecological islands

15-45 Degree

Plan

Metamorphosis Settlement

4 Steps / 1 / Arrive with the current 2 / Exploration & cleaning 3 / Synthesis of thread and plague 4 / Disengagement

[ Attach + Re-attach ]

High tide level

BEHAVIOR I / ATTACHMENT

Creating new connection

Mussel products

Informing the barrier distribution

Low tide level

Salinity 20-30%

Barnacle

Mussel Factory Declamping + Grading

Section

Coastal Residence

The overall system forms eco-islands and connections for animals to migrate. The estuary also provides foods and habitats for birds

Off-Buttom Settlement Wood-pile foundation

Detail

Abandoned Wood-pile

Fresh Water

Young Mussel

Temperature requirement / Young mussel : 0-12 Degree Mature musssel : 12-20 Degree

Mature Mussel

BEHAVIOR IV / EROSION

HABITATS X TEMP. X SHADING

n Su Shaded Area

Front Tidal Area Mussel shell X Ecological barrier

Mussel Cage

Clean Water

Salt Water

BEHAVIOR III / FILTERING

Sea

Younger Mussel

Barriered-bay area

Profit from selling mussels

Porous Base

BEHAVIOR II / ACCUMULATION

HABITATS X HABITATS X HABITATS X LANDFORMING ANGLE FARMING X CURRENT WATER SALINITY

Intertidal area with periodically tidal change Foods resources : Plankton and algae Salinity : 15-45%

Waste mussel shell

Sandy Base

Marine plants

S MUSSEL CAGE X ECO ISLANDS

Section / Year 2050 Mature mussels start build the mussel bed +

Tourists X Ecological Education

Sea + New Sea Area + Sea + New Mussel Farm New Mussel Farm

Sandy Base Plan

PATHWAY X CONNECTING

2067 Sea Level Rise 50 cm

Early Spring and Autumn

Growing pattern 1 Trochophore larvae

Water X Wind X Human Activities

ATTACHMENT X LAND X CAGE

PINE TREE X HABITATS

2117 Sea Level Rise 100 cm

Spawing & Fecundation

Section / Year 2017 Distributing mussel shell cages and young mussels on sandy coastal area

Erosion

Sandy Base

Inland city

CURRENT CONTROL X L MUSSEL CAGE X ECO-BARRIER MUSSEL HABITATS

MUSSEL HABITATS X MUSSEL ATTACH X PLANTING PLAN FOUNDATION

Wetland Plant

Sea Water

Wind

Breeding component Residence X Cooperation Interaction through this working process

Subtidal Area Mussel farming component

Salt

Harvesting Early Spring and Autumn After sea level rise, the wood piles will be gradually removed

Bouchot

Abandonded / Died pine trees

Soil Fixing ] Shad bush Wild blueberry

[ Riverbank Park ] Play as a buffer zone for flooding

Dynamic Ecological Island

Mussel cage = base to form the small island

Small Mussel Cage [ Intertidal Zone ]

Gabion + Waste mussel shell

Pine Tree Forest ]

[ Intertidal Zone ]

Block the wind in winter Sea level rise > Trees die > Mussel’s new habitat The leaves of pine tree will make the soil become more acid, which is good for mussel

[ Mussel Factory ] [ Black Cherry ] Forming the space for people to gather Visual focus on the coastal area

[ White Oak Tree ] Mussel cage = base to form the small island

[ Coastal Unit ] Part of the waste water will be released to the mussel farm, providing foods

[ Dune ] Sea rocket + Sea Side Goldenrod Soil fixing

[ Building Foundation ] Wood Pile + Concrete Potential mussel habitat

[ Mussel Farm ] Farmed by coastal residence

B.ARCH YEAR 5, THESIS DESIGN PROJECT

PRoject 002 +

War X Wall X Water Reconstruct the Daily Life of Refugees in the Middle East Instructor / Kwang-Tyng Wu

2015 / INDIVIdUAL WORK

Site / Refugee Camp Near River Tigris, Iraq

War is the most serious reason of causing

and duplicated continuously by countless

the damage to both artificial and natural

landmines. It only costs $2 to set up a

landscape nowadays. War is the contention

landmine; however, it costs $1000 to clear up

of petroleum, water, religion and political

one. Merely in Iraq, there are more than 10

power. Death and flee became the Middle

millions of landmines. In high condensation

East people’s daily life.

area, a person is killed or loses his/her limbs every 20 minutes. People can only clear up

To me, war is all about absence.

30 landmines a day, which means it will take more than 900 hundred years to clear up all

After the war, countless water resources were

the landmines in Iraq.

polluted by petroleum, the sky was covered by massive black smoke from burning oil

I made the collage “official war scene” (Right)

fields. According to the report from United

which contains the essential factors and

Nation, 750 oil wells were burned and more

elements of the war in the Middle East, to

than 1.5 million barrels of petroleum were

reveal the damage and changes of landscape

poured into the Persian Gulf during the Gulf

caused by wars. I also mapped out the

war, which is equal to the usage of Taiwan in

location of these issues to show that all

a month.

these incidents happened linearly as a series on plane.

Intro Video

With the march of troops, land was tattered

[ 30°27'08.7"N 33°12'16.2"E - 35°46'38.1"N 46°00'59.2"E ]

B.ARCH YEAR 5, THESIS DESIGN PROJECT

Dialy Life / Cities

Refinery / Oil Field / Farmland

30°E

River / Transportation

Ocean

45°E

37.5°E

52.5°E

[ LONGITUDE ]

37.5°N

TURKMENISTAN

TURKEY

ELBURZ MOUNTAINS

RIVER TIGRIS CYPRUS

SYRIA #003

MEDITERRANEAN SEA

LEBANON

IRAN IRAQ #004

GAZA STRIP

[ BGW ]

[ DAM ]

THERTHAR LAKE

ISRAEL

TA I

JORDAN

30°N

[ LAST UPDATE / 20150310 ]

#002 [ CAI ]

KUWAIT

#001

RT A

RIK

ET OI

EGYPT

NILE RIVE

BAHRAIN

R ST

SAUDI ARABIA

TA OR

RED SEA

U [S

QATAR

37.5°E

45°E

[ LATITUDE ]

United Arab Emirates 30°E

52.5°E

Mountain

Land

Landmine

ISIS Control

M.E. Warfield

Oil Pipeline

Oil Field

Water

Airstrike / ISIS

Airport

ISIS Support

Attacking Route

Oil Refinery

Existed Camp

ANALYSIS OF WARS IN the MIDDLE EAST

[ MESOSPHERE ] [ STRATOSPHERE ]

AIR

IKE

STR

ROP

IRD QUIP / A TENT X ]E| Y L PP ID X -12 6 ]

[ TROPOSPHERE ]

SKY LEVEL

SMO

VY HEA

OIL

PIP

UG REF

08"N

33°1

2'16

"E -

GROUND LEVEL

°27'

35°

- 4 6'38 "

ICL

VEH

X A NVOV HIN-7 S TER TO WA [ AN | [ ILYU X Y D ] B FOO UTED C-130 C S EXE CULE EN [H 0cm 000 : 25 SS E N ICK / TH 0cm 000 2 >

AIR

EE FUG

[ 30

N ME

/ IP

CAM

IEL

F OIL

DIN

UIL

B P/

NER

EFI

R OIL

CAP NDS A L E L AK

L IA FIC RT X RTI X DESSE A / D

L A URA E X RO NATITECTUR CH

6°00

'59"

CTU

RU AST

R INF - -1200 cm 0

-15

UNDERGROUND LEVEL

INE DM LAN-1500 cm -

-15

M/ LEU m TRO 000 c

000

-50

OIL

- -3

vertical & hOrizontal analysis Through these analyses, I found out there were three different layers emerged because of wars: 2.5 km thick heavy smoke from burning oil fields, 5mm–15m thick underground potential landmine zone, and 0.1–10mm thick floating petroleum on the water. These enormous/tiny layers led to the death of animals and plants because they broke the connections between human and nature. Moreover, they blocked the sun light and caused the temperature became lower than usual. Human's living space was also shattered due to the landmines.

B.ARCH YEAR 5, THESIS DESIGN PROJECT

PRICE OF ESSENTIAL SUPPLIES

DESIGN CRITERIA - the length of time the camp is expected to be occupied > population - replacement place, tatic, solution - elevation, soil type, availability of land, topography - accessibility, environmental hazards, land right - potable and non-potable water, cultural demands

FIREBREAK 50 meters with no buildings /

SHELTER TYPES

Blanket 7$ / 1 piece

Cereal 160$ / mt

Cook oil 800$ / mt

Sugar 600$ / mt

Salt 300$ / mt

Kitchen set 20$ / set

Clothing 20$ / set

Oil Field

tents around

Canvas tent

Most of the shelters are family size ( 4 people ), with heavy canvas, fly sheet and ground sheet

CENTRALIZED SERVICES

Ground troops light up oil fields and put landmines around them before they leave the battle zone in case the winning alliance couldn’t get the petrolium easily

2.236 M

WAREHOUSE Storage room / warehouse > administrative office / security reasons

MAIN ENTRANCE / CHECK POINT

2.236 M

2.7 M

3.3 M

Prefabricated shelter

Fish / Meat 1500$ / mt

MINIMUM LIVING SPACE 3.5 square meter / person

Firefighters need to clean up all the mines first then use original oil pipe to get water from sea to put out the oil field’s fire

FLOODED / MUDDY AREAS Drainage design / Site consideration / Environmental hazards

Likely to be centralized /

- Administrative office

Main Bypass Route

- Health care, feeding programs, water supply - Religious centers - Medical facilities Likely to be decenteralized / - Bathing and washing areas - Schools 15 - 20 ft.

GARBAGE

Ideal height of watertap is 15 - 20 ft

Garbage, includes food scarps, food packing, and paper wastes. These wastes should be

Minimum water demands of 15 - 20L day / person

collected daily and send to a sanitary landfill

35.540181, 43.219027 - 35.339500, 43.380437

- Warehouse and storage

Humanitarian supplies X Oil X Materials X Goods 4 Lanes / 2 way

F Argricultural Re

Most of the farmlan raw water resource In time of war, milita under the farmland serious problem to f

COMMUNITY / VILLAGE 1 water tap for every 200 - 250 people / 50 - 60 tents

Organized into small communities /

If a source of water is within reasonable distance, a temporary

villages of around 200 people

pipeline can be constructed, or can use truck to deliver

Communities than tied up into sectors

Possible raw water resource /

REFUGEE CAMP LAYOUT

- Rivers, streams, lakes, springs, irrigation canals - Groundwater

L : ANALYSIS OF REFUGEE CAMP R: SITE ANALYSIS

MAIN CIRCULATION FOR VEHICLE

G Main Oil Pipe

Oil field X Refinery X Sea wate

Existed Refugee Camp Makhmour refugee camp is located here

100

River Bank X Coastline X Beach Once the military suffer a defeat, they pour petrolium into the river / sea, which cause serious environmental impact During the Gulf War, more than 1,500,000 tons of oil was poured into Persian Gulf

[ WATER SUPPLY ]

50 6M

t e

[ LIGHT AND power SUPPLY ]

Landmine Area

[ Dijla ] Tigris River

43%

18% 14-65 39%

Land mines exist from 5mm - 15m under the ground level. It becomes the obstacle of argriculture, also divides people’s living space

[ LATRINES ]

[ REFUGEES BY AGE ]

THE ABSENCE OF DAILY LIFE

The absence caused by wars not only appeared

Oil Refinery Waste warm water X Refugee camp

physically, but also mentally to the refugees. In order to escape from war zones, most of the refugees of all sex and age, could only fled with their necessities and walked tens or even hundreds of

egion

kilometers to the refugee camps.

nd is located near the e, like river, stream or lake. ary put countless landmines d, which become the most farmers

“Repeating” and “consistency” are the normality of refugee camp. The camp abruptly shows up on the land and has no context to refugees’ original living space. In my opinion, living in the refugee camp is an

er X Fire

acute lost of the sense of distance and space which 0

are established between coordinates. This kind of

break leads to the absence of “daily life”, which is the simple and only thing that refugees eager to have.

B.ARCH YEAR 5, THESIS DESIGN PROJECT

REFUGEE X CAMP Refugees can only live in limited spaces, without proper water resources, foods, and heating system. Many refugees suffered from or even died in freezing winter. Public facilities in camps are dispersive and insufficient.

PROCESS 0

PROCESS 1

PROCESS 2

PROCESS 3

I started to intervene the camp by bringing waste warm water from refinery into the camp. With the airdrop package I designed, refugees can easily set up a simple heating system by themselves. At the same time I deployed a rammed earth wall to establish a reference point in the camp.

SMOKE RELEASING CHIMNEY

WATER PIPE FOR REFINERY COOLING OIL REFINERY WASTE SOIL / WASTE

SUB OIL PIPE MA

MAIN ARTERY

FO R

REACTOR

CONTAINER OIL FIELD POTENTIAL LANDMINE AREA

EXISTED REFUGEE CAMP

4 M

Site analysis : REFUGEE CAMP NEAR RIVER tigris, IRAQ / 36"3'15.14"N 43"17'58.01"E

TIME TABLE X PROCESS OF THE PROJECT [ STAGE 1 ]

| SCORCHED EARTH |

[ WATER ] Ocean / River / Lake

Military pour petroleum into ocean, river or lake in order to prevent enemies from getting resources.

[ STAGE 2 ] | MAIN TUBE SET UP | In order to reuse the waste warm water from re finery nearby, the main tubes has to be set up by specialists and NGOs.

| CAMP SET UP |

[ REFUGEE CAMP ] Tent / Latrine / Water Point

After unpacking the airdrop package, water intervener can be assembled into water filter. Refugees only have to release them to the nearby polluted water resources.

| ELECTRICITY | | WATER SYSTEM | With the construction of the wall and other facilities by the main tube, including water collectors under steel pole, refugees will have enough water to use.

| SAMPHIRE PLANTING | Samphire seeds are included in the airdrop package, it will grow in water intervener and provide vegetable for refugees,

Life cycle 3 months / harvest

[ STAGE 4 ]

| PURIFYING |

| ECOLOGICAL

It takes 6 - 48 months to purify the polluted water. Specific bacteria insides the bomb will gradually resolve floating oil.

Refugees/NGOs/UNHCR Construction Specialists/Refinery Staff

Military put countless land mines everywhere under farmlands, where troops most likely walk by. At the same time it’s close to people’s living spaces, caused serious dangerous to farmers and people.

Airdrop Packages / Supplies

| WITHDRAW OF THE CAMP | After war, most of the refugees will go back to their own cities, all the temporary facilities in camp will be removed, only the infrastructures underground remain.

| TRAINING & SWEEPING | volunteer refugees start to be trained as a landmine sweeper at the training station and start to clear the landmines around their living space. Other re fugees can start to grow crops on the clear farmland.

[ Honeycomb ]

All the water facilities will remain underground, once the war begin again, refugees can come back to the camp site, rebuild it in a quick and proper way.

AFTER 2 YEARS

2 YEARS

| FOOD SUPPLY | | SWEEPING |

[ Suspension Bracket ]

[ Flexible Tube ]

| PREPARATION |

Refugees/NGOs/UNHCR

15cm

| WASTE SOIL |

| LANDMINE FROM 15MM - 5M |

With the elements inside the package, refugees can easily set up a simple water heating system in the camps.

Normally the biologic chain with plants and animals will

| WASTE SOIL |

| HEATING SYSTEM BUILD UP |

RESTORATION | rebuild in 5 - 10 years.

1-6 MONTHS AFTER THE AIRDROP

AFTER THE CONFLICT

Farmland / Living Space

| WATER INTERVENER |

After refugees arrive camp, they start to build up their own tents, latrines, water points and other public facilities.

Refugees/NGOs/UNHCR/US Military

[ LANDMINE ]

[ STAGE 3 ]

| WATER COLLECTOR | | AGRICULTURE |

With the processure of swee ping landmines, more farm lands can be used properly, people will have enough food supply,

After sweeping all the landmines under the farmlands, water inter vener will be reused as rain water collector under the lands.

[ WALL ] Warm Water / Public Facility

| BEFORE THE WALL | The camp does not have a reference point for refugees to locate their place, it’s a place with no sence of place.

| BEGINNING | Refugees use pallets and soil to build up the rammed earth wall, the soil are the waste soil dig out during the construction of the camp.

| DECLINATION |

| VANISH |

The wall start to decline after a reasonable period, there are plants growing on it, and the memory of refugees who build this wall.

The wall will eventually vanish, left no thing on the camp site, only the infra structure underground.

A [ AIRDROP PACKAGE ]

B [ WATER INTERVENER ]

C [ SAMPHIRE ]

D [ WATER COLLECTOR ]

E [ SOLAR BALLOON ]

F [ WATER INTERVENER ]

WITH SOLAR BOLLOON & WATER INTERVNER

ASSEMBLE WITH STEEL POLE AND CONTAINER

PURIFY POLLUTED WATER

ASSEMBLED BY 2 PARACHUTE

GROW IN SALTY WATER / VEGETABLE

PURIFY / FOOD SUPPLY

B.ARCH YEAR 5, THESIS DESIGN PROJECT

HOSPITAL

BIRTH & REBIRTH PHYSICAL SUPPORT 2

ENTRANCE TO PRAY AREA

PATH / NODE PRIVATE

DAILY PRAY (OUTSIDE)

WALL X SPIRITUAL PRAY / CARRIER

MOSQUE FOR SUNNI / SHIA

TIME / RouTINE / DAILY AMALGAMATION PRIVATE

BATHING X LAUNDRY

WUDU POOL

TIME / RouTINE / DAILY mental support private / public

FO TI PU

FOOD PREPARING TIME / ROUTINE /REGULAR PUBLIC / PRIVATE

3 4 1

TOILET / HAND WASHING

TER

WATER SUPPLY FLOOD STORAGE POOL

PUBLIC KITCHEN MEN SHOWER / LAUDRY / FOOD PREPARING

PRAY

MOSQUE / SHIA

INPATIENT AREA

BABY CARE / ICU OFFICE

PUBLIC KITCHEN

HOSPITAL PUBLIC KITCHEN UP : SECTION X CONCEPT COLLAGE DOWN : LAYOUT X WALL X PROGRAM

WOMEN SHOWER / LAUDRY / FOOD PREPARING PUBLIC KITCHEN

FLOOD STORAGE POOL WAREHOUSE FOR HOSPITAL

MEN SHOWER / LAUDRY / FOOD PREPARING

MOSQUE / SUNNI

WOMEN SHOWER / LAUDRY / FOOD PREPARING

WA IN A M TER FIL

ATHING X LAUNDRY

OOD PREPARING IME / ROUTINE /REGULAR UBLIC / PRIVATE

SUPPLEMENT STATION WAREHOUSE PHYSICAL SUPPORT SOCIAL SPACE / NODE

PARKING LOT

MACHINE / HUMAN SUPPORT FROM OUTSIDE 10

REGISTRATION CENTER CHECKPOINT SELF-INDENFICATION CODING / COORDINATE

TEMPORARY TENT BOUNDARYLESS PHYSICAL / MENTAL SHELTER

IPE

TEMPORARY SCHOOL / OCCUPATION TRAINING TEMPORARY TENT

SUPPLEMENT CETER

PARKING

REGISTRATION CENTER

B.ARCH YEAR 5, THESIS DESIGN PROJECT

WATER SYSTEM X EXPLOSION DRAWING

SUB WATER PIPE | PROVIDE HEAT FROM REFINERY |

GR VER

UND

ERG

OUN

D OUN

AR DP PAR

TER

wat with

stee WA

SUB WATER PIPE | PROVIDE HEAT FROM REFINERY |

WA RM A W RY STE EFINE A W MR FRO

WA COL

TER

wate

ATE

P TY TER WA

T CON

AIN

DS SEE E R PHI S / OOD SAM ONTH CY F 3 M ERGEN EM

WATER COLLECTOR | FARMLAND |

polluted water | sea / river |

farmland x potential landmine area

SITE PLAN +0

rammed earth wall

WATER PURIFIER | POLLUTED WATER |

POT E FAR NTIAL MLA L ND ANDMI N

REA

/ MAI N OF T ENTR HE C ANCE AMP

ter c ll h diff ector erent layer s

RAIN WATER COLLECTOR | THE WATER INTERVENER CAN BE PUT AT THE TOP OF THE POLE, IN ORDER TO PURIFY RAIN WATER | of st ones

el po le

RAIN WATER STORAGE | UNDERGROUND / CONNECT WITH STEEL POLE |

PIPE IN THE WALL | BATH X LAUNDRY X FOOD PREPARING |

WALL X PUBLIC PROGRAM | RAMMED EARTH WALL |

water refill

I IFIE E I PUR P TY TER WA

water refill

er co ntain e

STEEL POLE | 3 DIFFERENT HEIGHT : 240CM / 180CM / 75CM |

& G INE ASHIN R T A W L ND HA WA

TER

POI

REFUGEE TENT | pRIVATE TENT : 4X3 SQUARE METER | | 4 PEOPLE / TENT |

B.ARCH YEAR 5, THESIS DESIGN PROJECT

airdrop package

PARACHUTE X SOLAR BALLOON

heating ins

fly

SAFETY STRAP SIDE SLING

tent 3x4 square meter

ply wood

honeycomb stack

120

screw & nut Weight for thread WATER FILTER BUTTOM STABILIZER

FLEXIBLE TUBE

SOIL / WATER CONTAINER

WATER INTERVENER BOMB

cotton thread

FLEXIBLE TUBE

120

O-TYPE HONEYCOMB

all included in airdrop package : 4 sets / per package

cap

CLEVIS

SUSPENSION BRACKET

SIDE MEMBER OF WATER INTERVENER BOMB SUSPENSION LINK ASSEMBLY

CENTRAL MEMBER OF WATER INTERVENER BOMB BUTTOM RUBBER CUSION

stallation manual

air level / samphire

cap h=39mm

150c

waste soil / material of wall

0cm

detail of water intervener

water / soil / plant container h=210mm air space / floating h=109mm thickness : 10.2cm cotton thread

cap height +382mm

screw thread h=21mm

oil level +150-300mm water level +0 screw x3 i=30mm r=150mm

AIRDROP PLATFORM filter x2 h=181mm r=310mm

water & oil exchange hole side member HONEYCOMB SLICE HONEYCOMB STACK PLYWOOD BOARD 150

tent site cm

buttom stabilizer

sub water pipe / built up by unhcr / ngoS EXPERTS weight h =42mm lead weight=50g WARM WATER FROM REFINERY COLD WATERAFTER USE 15-20cm wide drainage | waste soil |

buttom of water intervener -1357

B.ARCH YEAR 5, THESIS DESIGN PROJECT

the end and the begining The wall is built up by all refugees, and its materials

period. The refugees will go back to their hometown

are the reuse soil from the camp and the pallets from

eventually; therefore, all the temporary shelters

supplement cargos. The airdrop package has a water

will be removed after they leave. However, wars are

intervener which can purify and collect water, as well

unpredictable. The infrastructures I set up will stay

as other materials for refugees to build up the heating

underground and people can easily build up a proper

system and other packing materials that can be reused

refugee camp when other wars occur in the future.

as solar balloon and honeycomb furnitures. The rammed earth wall will gradually collapse in three The goal I tried to achieve through these designs is to establish the daily life in refugee camps in post-war

different stages and leave no trace at the end.

B.ARCH YEAR 4, option studio DESIGN PROJECT

PRoject 003 +

Prime House Reforming the Industrial Office Building as Social Housing Instructor / Chen-Luen Hsueh

2013 / INDIVIdUAL WORK

Site / No.22, Sec. 3, Zhongshan N. Rd., Zhongshan District, Taipei, Taiwan

Housing is a serious social issue in Taiwan.

for their visiting friends or parents, extra

Especially in the capital Taipei, the lengthy

spaces as personal working studios, or extra

urban renewal process is the critical reason

rooms for their prospective family members.

that leads to both the high rental rate and

In contrast, they may release those spaces

the inefficient usage of housing. As Taipei

when they do not need them. Therefore,

developed, there were many immense and

flexible housing units with the modularize

antiquated buildings built between 1960-

building system are crucial in this project.

1990 for industrial purposes. They were mostly abandoned and needed to be replaced

In mathematics, "Prime" is defined as

or renewed. This project aims to provide an

the number that is abnormal, unusually

efficient solution to reuse the vast Ta-Tung

appears, and can only be divided evenly

company office building as a new social

by 1 and itself. In this project, I defined

housing.

"Prime Space" as a unique space that can be temporarily used for private purposes or

The middle-class citizens are the main users

released as public open spaces as needed. In

of social housing. They are composed mainly

other words, the units in this social housing

of young people aged between 20 -40 yr. One

are adaptable and their sizes can be easily

of the main characteristics of these residents

enlarged or reduced according to different

is that they constantly change their demands

needs of spaces.

of space. For instance, temporary spaces

B.ARCH YEAR 4, option studio DESIGN PROJECT

FROM SOLID TO POROUS : The ANTIQUATED GRID STRUCTURE AS A NEW living storage The colossal building of Tatung company is an opaque container that only employees knew its content inside. This massive building not only forms a considerable shadow area during the daytime but also became an obstacle of the wind system of the inner city. In addition, it separates the open spaces of Zhong-shan district and becomes a break point in the Taipei city. I divided the volume into three different parts: (1) a light and transparent open space at the lower level (from ground floor to the third floor), (2) a semi-transparent public space at the north side, and (3) private housing units located on the south side of the building. The building becomes a porous and permeable volume that allows sunlight and wind passing through. With 7 different modularize units and the adaptable housing system, the building serves as a sponge collecting the middle-class generation and their residential memory segments.

original building / opague container

urban sponge x middle class x memory collector

mk1

SITE

ALY.7, SHUANGCHENG ST. MRT

zho

line

ngsh

h ort an n

Mrt line 4 ug

road

FAYA ART GALLERY

MRT LINE 2 OVERGROUND

mk1

tatung factory 1

tatung factory 2

10 floor office

12 floor office

9 floor office

huaguo hotel

Taipei city hospital

chingguang park

CHungshan housing

CHINGGUANG MARKET

chungshan school SHUANG CHENG MARKET

mk2

mk1

hs re et Fu sh un St

Shuangcheng Street sec.3, Chengde Road

taipei fine art museum

Nong'an Street

hb 03 mk2

02 TS o1 f1 f2

units blending insertion of modularize units division of 3 main segments program & component removal ORIGINAL BUILDING

2025 2000 1975 1950 1925 1900

Minquan East Road

B.ARCH YEAR 4, option studio DESIGN PROJECT

d vertical core

atrium

b2 atrium

unused area preparation for future enlargement

5th floor unused area

F public area movie, symposium

4th floor

public ar unused area

public area chatting, reading

unused area

c1 33

botanic gard vegetable pl gig / party outdoor acti

HOUSING COMBINATION There are 7 different standard housing types including 3 single floor units and 4 double

PUBLIC AREA

floor units. Each unit has one main space and one prime space. Residents can decide whether they want to obtain the access to the prime space or release it as a part of the public space or the setback on the facade. Every two units can be combined into a medium size unit (double room) and further enlarge as a large size unit. All the units of this social housing can only be rented. Residents monthly pay the

rental fee according to their monthly space requirement. They can enlarge their spaces temporarily when their friends or parents visit them, or when they have additional family members. Contrastly, they can release part of the unnecessary spaces after their children

ELEVATOR

grow up and move out.

+ main space

prime space

housing unit Interior

[ COMBINATION ]

rea

den/ lanting/

ivities

PUBLIC BOTANIC GARDEN

[ EXPLOSION ] 34

B.ARCH YEAR 4, option studio DESIGN PROJECT

TYPE a UNIT FLOORS : 2 area : 10.96 square meter user : 1-2 person

TYPE D U

FLOORS : 1 area : 12.3 user : 1-2

TYPE b UNIT FLOORS : 2 area : 11.86 square meter user : 1-2 person

TYPE c UNIT

TYPE E U

FLOORS : 2 area : 12.28 square meter user : 1-2 person

FLOORS : 2 area : 12.6 user : 1-2

UNIT

TYPE F UNIT

36 square meter person

FLOORS : 1 area : 11.23 square meter user : 2-4 person

UNIT

TYPE G UNIT

61 square meter person

FLOORS : 1 area : 12.71 square meter user : 2-4 person LAYOUT SCALE 0 2

8 M

public area

public

+1195

SEMI-PUBLIC

fourth FLOOR

residence

fifth FLOOR +1555

residence residence residence residence

SEMI-PUBLIC

residence

+2995

private

ninth FLOOR

residence

residence residence

+3355

public area

tenth FLOOR

public

+3715

SEMIPUBLIC

eleventh FLOOR

residence

+4765

private

fourteenth FLOOR

public

residence

public area

MAIN VERTICAL STAIRS

SEMI-PUBLIC

ORIGINAL STAIRS

public area

ORIGINAL STAIRS

SEMI-PUBLIC

B.ARCH YEAR 4, option studio DESIGN PROJECT

SECOND FLOOR

public

residence VERTICAL STAIRS

public area

+475

ESC

GROUND FLOOR +0

/ T RE STO AIN EN M 37

CE RAN

ALA

S STA TAIR / IR / G GF -

TOR

/G F

-2 F

PLAN : INDOOR X OUTDOOR / PLUBLIC

SEMI-PLUBLIC

TRANSITION

[ ROOF GARDEN ] GROUND FLOOR

2ND FLOOR

3RD FLOOR

4TH FLOOR

5TH FLOOR

MEETING / READING / entertainment / MEDIA ROOM

6TH FLOOR

7TH FLOOR

8TH FLOOR

9TH FLOOR

10TH FLOOR

INDDOR Gym / yoga room

11TH FLOOR

RESIDENCE PLUBLIC 12TH FLOOR

13TH FLOOR

14TH FLOOR

atrium analysis / [ SPORTS FIELD ] [ BOTANIC GARDEN ] MEETING READING / entertainment / PICNIC [ BOTANIC GARDEN ]

rear 4 3 2 1

front

section line

section 1

section 2

section 3

section 4

atrium analysis /

TRANSITION FLOOR

residence

[ COMMUNITY LIBRARY ]

residence (private)

[ RETAIL STORE ]

F3 2F F

urban pathway / connection / pavilion / group activity

SPORTS / gym

security check botanic (transition)

residence retail / public library piping space

public original stairs

main piping space

residence main stairs piping space escalator retail elevator [ vertical circulation system ]

piping space

[ pinping system ] 38

B.ARCH YEAR 4, option studio DESIGN PROJECT

unit detail x installation upper floor

original / structure

+ to main piping space

ORIGINAL BEAM

optioNAL PAVEMENT

PIPING SPACE

FLOOR GIRD SYSTEM

ORIGINAL COLUMN

vertical core

door/ window

atrium deployment

quick release system

lower floor

connection hole beam’s joint

detail 1

piping system

pre-fabric dry wall

SIDE component CUSTOMIZE I-BEAM

public

circulation system

ADAPTABLE WALL SYSTEM

single unit detail

MAIN PAVEMENT

private

! click

bottom component of the wall expansion joint

floor grid system

quick release system

detail 2

adaptable residence

10 M

up / 5th floor plan down / 4th floor plan

M. LA YEAR 2, option studio DESIGN PROJECT

PRoject 004 +

Project Core + Architecture and Participatory Process as Tools to Improve Lives in Kutupalong Refugee Camp Instructor / Anna Heringer, Martin Rauch

2018 / INDIVIDUAL WORK

Site / Kutupalong Refugee Camp, Cox's Bazar, Bangladesh

Continuing on my project: War X Wall X

These are two satellite images of Kutupalong

Water in 2015, I had the opportunity to truly

refugee camp in January and December

conduct field research and engage with

2017. It indicates that during these short,

the construction process with displaced

11 months period, more than 21 thousand

Rohingyas in Kutupalong Refugee Camp.

square meters of forest were deforested due to the needs of shelters. The original

Rohingya crisis began in the late 50s and

Kutupalong area was a gigantic forest

outbroke in 2017. It is one of the biggest

which has a Himchari national park at the

humanitarian crisis ever in human history.

Northside and the Teknaf sanctuary at the

Around 700,000 Rohingyas were displaced

Southside. The refugee camp awkwardly

and fled to Bangladesh. The persecution

appeared between the two areas, created

of Rohingyas and its following massive

a h u g e g a p t o b ot h f l o r a a n d f a u n a .

human immigration and settlement rapidly

Project Video

changed the landform and polluted the

In order to escape from the violence, most

original ecology system in Cox's Bazar.

of the refugees, without distinction of sex

The absence from every perspective also

and age, can only flee with few necessities

happened in the camp, including the

on their back, their children in their arms

short of resources, the improper living

walked and swam tens or hundreds of

environment and as well Rohingya's

kilometers for more than a week to the

original daily life back to Myanmar.

refugee camp.

SATELLITE IMAGE OF KUTUPALONG REFUGEE CAMP IN jANuary 2017

SATELLITE IMAGE OF KUTUPALONG REFUGEE CAMP IN DECEMBER 2017

M.LA YEAR 2, option studio DESIGN PROJECT

ACTIVITY ANALYSIS & Material testing

TYPICAL RAINING HOUR

The activities happen in the camp includes refugees' everyday routines, monthly events and annual celebrations. Most of the refugees are now living in the 3X4 square meter tent. They do almost everything in this small, enclosed space. They have neither proper foods nor a proper cooking area. During the monsoon season, they need to stay in the humid, warm tent for almost entire day. Public area and common facilities in the camp are insufficient and unorganized. Refugees do not have enough public social spaces, neither do most of them have work or income. These immutable and frozen scene weaken Rohyingas' sense of their coordinates. The most ironic thing is that Bangladesh government cut down all the trees in the camp because they claim that these trees make Royingyas at home. The sun exposure became the most critical issue to both people and environment.

ON-SITE MATERIAL, TECTONIC AND PATTERN TESTING

M.LA YEAR 2, option studio DESIGN PROJECT

LANDSCAPE RESTORATION STRATEGY

STAGE 00] ORIGINAL CAMP STIE

STAGE 01 ASSIGNING SHARED PLATFORM

STAGE 02 SPREADING PLATFORMS AND TREES

STAGE 03 RESIDENTIAL UNITS AND FARMLAND

STAGE 04 DISMISS AND RECONSTRUCTION OF THE CAMP AND ITS RUIN AS ARTIFACT

STAGE 05 THE RECOVERY OF THE LANDSCAPE AND THE RECONNECTION OF NATIONAL PARKS

SEED unitAS SHARING PLATFORM

- playground -

- CHARGINg POINT -

- toilet & shower -

- FARMLAND -

- WATER STORAGE -

This daycare center project initiated from a loop,

the school, the entire place will become a big

trying to introduce a new movement rather than

playground that children can explore all kinds of

the original linear circulation system in the camp.

possibilities, interact with other kids and their

The seven various rammed earth units I assigned

parents, neighbors, and further facilitates their

along the loop have different programs according

physical and psychological development.

to the needs of children and their community. This project aims to create an adaptable The loop goes along the natural topography,

prototype. This seed-shape unit plays the role as

creates an interesting yet challenging playing

the sharing platform. It can be easily transformed

experience for children. The seed-shape units

into various purposes according to the needs of

will be used according to different events and

the community.

time period. When there is no class during after

M.LA YEAR 2, option studio DESIGN PROJECT

UPPER LEVEL LAYOUT

LOWER LEVEL LAYOUT

DETAIL SECTION AND MODEL THATCHED ROOF Dry straw Ø=5-10mm Fixed by nylon rope Replace every 3-5 years

ROUNDED LAYER

Treated Bamboo Ø=6-12mm, 3 - 5 meter / unit Fixed by nylon rope

WEAVING LAYER

Treated Bamboo Slice W=30-60mm

+3500

MAIN BEAM

Treated Bamboo*3 Layers Ø=100-120mm Fixed by Nylon Rope

545

Treated Bamboo Ø=100-150mm Fixed by Nylon Rope

VENTILATION

RING BEAM

455

ROOF BASE

Treated Bamboo*4 Ø=100-120mm Fixed by Nylon Rope

RAMMED EARTH WALL

1400

Prefabricated Bamboo Mold Depth=15mm

2850

WATER BRAKE

On-site Mixing Material Thickness=490mm Local Earth + Brick Chip

Brick L230*W110*H60mm Concrete 4000 psi

±0

550

WALL BASE

Local Earth Layer Yellow / Brown

490 46 0 10 20

M.LA YEAR 2, option studio DESIGN PROJECT

A-A' DETAIL SECTION PERSPECTIVE

B.ARCH YEAR 4, option studio DESIGN PROJECT

PRoject 005 +

100 Kinds of Life A Pavilion for 1 Buffalo, 3 Goats, 3 Boars Instructor / Chen-Luen Hsueh Site / Lei Gong Farm, Chiayi, Taiwan Contribution / Concept, Design and Detail Development, Drawing,

2013 / collaborative WORK

Construction, Presentation

This design-build project focuses on

humans into the existing ecological cycle

three aspects. Frist, the on-site design-

with the consideration of budget limitation

build process which is different from the

and the use of recycled materials.

traditional execution. We camped at the site which allowed us to develop and adjust

In Taiwan, water buffalo plays an important

our proposal with daily observations and

role in the agriculture history because of its

analyses simultaneously.

plowing ability. However, the water buffalo A-Fu, one of the users in this project, was

Second, the cooperation between the

sold to the slaughterhouse after his 10 years

proprietor, architects, construction team,

of hard work, because of the financial needs

and the veterinarian. Unlike most of the

of his owner. Fortunately, Mr.Chen, the

architectures that are made for humans, this

proprietor of this project, also the owner of

pavilion is made specifically for animals. We

the farm, brought him back after negotiating

collaborated with veterinarians to obtain

with the butchery.

the essential knowledge of animals and the unique habitat required for different species.

Mr. Chen later got in touch with professor Chen-Luen Hsueh since A-Fu and other 3

Lastly, the emphasis we put on tectonics,

boars and 3 goats that originally lived in

materials and organic farming systems. We

farm needed a pavilion to settle in, brought

tried to put not only the new animals and

this collaborative design-build project.

B.ARCH YEAR 4, option studio DESIGN PROJECT

1 / Main entrance of the farm

3 4 2 / camp site for designer

site analysis & observation of animal behavior Lei Gong Farm, the site of this project, is located on the mountainside of Chiayi County, with abundant crops and vegetation. The proper ecological cycle is the most crucial factor because the farm adapts organic farming system

3 / site

instead of using insecticide or chemical fertilizer. In addition, the biodiversity and the unique environmental demands of animals and plants provide possibilities for us to build up an ideal circulation system. In order to collect the complete data of the environment and the characteristic of flora and fauna, we camped at the farm for more than 3 months, followed the local farmers with their daily routine and closely observed the interaction between animals and plants.

4 / the pool next to the site

[ Water Buffalo ]

[ goat ]

X1 / 11Y

X3 / 4y

[ boar ] X2 x1 / 2y

217cm

62cm

124cm

133cm

103cm

76cm

FARMER’S BREAK

buffalo stay in pool

food / kg 1 2 3 4

BUFFALO MUST STAY INDOOR

00 01 02 03 04 05 06 07 08 09 10 11 FARMER’S BREAKFAST HOUR

12 13 14

LUNCH HOUR

15 16 17 18 19 20 21 22 23 24 Time / hour DINNER HOUR

excrement

ORGANIC FARMING X CIRCULATION SYSTEM

fermentation

FOOD

CALTIVATTION

FOOD

prcipitation

FOOD FROM OUTSIDE

fertilizer

SUN

FOOD higher consumer

+ pest insect predator

Mr.chen

project

NCKU

COLABERATION

vet worker FOOD SURPLUS

B.ARCH YEAR 4, option studio DESIGN PROJECT

DIAGRAM OF VOLUME DEVELOPMENT

STAGE 0

STAGE 1

STAGE 2

STAGE 3

STAGE 4

SERVICE PATH

405

3450

3600

SLOPE / GRASS

3750

BUFFALO

3900

GOAT

farmland / campsite

TO POOL 0

4 M

MATERIALS X Tectonics Due to the budget limitation, 95% of the reused materials in this project were provided by donors. The used materials include kassod wood, ply wood, pine wood, C-beam, I-beam, L-beam, and the gabion fence. Since these materials have different structure performance, we decided to use C-beam and kassod wood to construct the main structure, and combined gabion fence with L-beam to set up the ecological gabion wall.

TIN ROOF Pine wood

TIMBER STRUCTURE FOR goat Pine WOOD

DETAIL OF ROOF STRUCTURE pine wood pla plastic sheet c

gabion fence IRON WITH ZINC COATING cobbles Ø=40-75MM

ply wood sheet PINE Wood

SLOPE for excrete

steel frame L-BEAM STEEL metal

service path Pine wood l-BEAM steel metal

soil slope soil Poa pratensis L. grass pine wood deck

foundation C-BEAM STEEL MEATL 80*6*5 CM 80*10*5 CM

foundation detail

Retaining wall

ECOLOGICAL POOL 54

B.ARCH YEAR 4, option studio DESIGN PROJECT

maintenance aisle

MAIN STRUCTURE OF BUFFALO’S PAVILION

L-BEAM STEEL METAL PINE w=120mm

Kassod wood

ROOF

RAIN WATER COLLECTOR

pla corrugated sheet

pla tube Ø =60MM +2852

2405mm

scuttle

1730mm

3210mm

precip

stair deck

itatio

+2852

PINE W=410MM

STONE Ø =40-75mm

excrement collecting tube ORIGINAL BASE SOIL

Ø =120mm

TE XC

RET

BOAR excrete

BUFFALO EXCRETE

+362

5000psi cement t=160mm slope 5%

RETAINING WALL w=320mm

escarpment

+362

GOA

3375mm

45 DEGREE

gabion

main structure components setting

FOUNDATION x GROUND FLOOR

Rebar installation for foundation

concrete placing

roof structure

structure detail

foundation detail

steel structure of gabion

B.ARCH YEAR 4, option studio DESIGN PROJECT

supervision / technique teaching

people

PROFESSOR HSUEH

PROPRIETOR

construction supervisor

delegation

vet

food collecting / preparation

discussion proposal / discussion dec. 3, 2012

site camping

dec. 17

time

site analysis design development

stage component

goat fence a

pine wood 872*120 mm

path stru

l-beam fra

premix concrete

[ stage 2 ]

structure 03

kassod wood 1134*140 mm

kassod wood / c-shape steel

pine wood / threaded rod

goat fence b

slope steps

structure 02

pine wood 1998*90 mm

pine wood

pine wood / threaded rod

buffalo entrance

vertical structure a

jan. 0

site camping

detail design stage 1 construction tools / material preparation

structure 01

pine wood 2838*90 mm

kassod wood 2241*140 mm

maintainance pavement

dec. 28

school

excrete collector

waste pebble

[ stage 1 ]

horizontal structure a

dec. 22

material testing full scale mock-up

backfill

excrete collector

site camping

pine wood

[

goat entrance pine wood

foundatio c-shape beam 50*60*1525 mm

foundatio

c-shape beam 60*100*2180 mm

steelwork team

woodwork team

assistant team ncku year 2/3 STUDENT

design / construction team

ational cheng kung university year 4 student

Harbin Institute of Technology year 4 student

05, 2013

cross-school cooperation assistance / technique sharing site camping

tage 2 construction

jan. 09

school

jan. 12

final review

design review

site camping

stage 3 construction

jan. 28

site camping

stage 4 construction

site camping

stage 5 construction

design adjustment gabion fence / pebble

h ucture woodwork

ame

[ stage 3 ]

on 01 foundation 02 c-shape beam 60*100*2180 mm

on 02 connection l-beam

feb. 22

32*32*360 mm

pvc sheet

grass seed

[ stage 4 ]

[ stage 5 ]

threaded rod

steel frame 01 steel frame 03 threaded rod

root sheet

stainless steel 3’ / 450 mm

l-beam

3+3 mm pvc 4020*3850 mm

l-beam

stainless steel 3’ / 450 mm

steel frame 02 path frame

excrete plate fence holder

l-beam

stainless steel 2627*2840 mm

l-beam

steel

rain water collector stainless steel

fodder container stainless steel

B.ARCH YEAR 4, option studio DESIGN PROJECT

river tracing end

metam

CHI

N-S

chin-shui river HUi

riv

BIOLOGICAL INDICATOR

STORAGE TANK

S TEMPLE

h 345

thunder pool ph=7.5

3600

3750

3900

4050

side storage tank

a 4200

4350 4500

450 0

legend4650

RELATIONSHIP moving path hydro-factor ANIMAL-FACTOR PLANT-FACTOR

thermal c

moisture

soil conservation

carbon dioxide

irrigation

oxygen

+2850cm

morphsis/spawing

cabbage

two harvest a year

camp site banana tree

garlic

guava tree

SPECIFIC FOOD SUPPLY

garlic +3150cm

Sturgeon fish

famrers house

habitat 3750cm

bamboo

pollenating

papaya house BIOLOGICAL INDICATOR

pavilion excrete / fertilizer coffe maze

bathing

3300cm

surplus cleaner

rock climbing woodlot

3300cm

food supply facilities / necessity

food / product supply

market x profit

packaging 60

M. LA YEAR 1, lANDSCAPE REPRESENTATION COURSE

PRoject 006 +

Urban Amoeba The Urban Occupation Movement Instructor / Craig Douglas, Rosalea Monacella

2017 / INDIVIdUAL WORK

Site / Harvard Yard, 2 Kirkland Street, Cambridge, MA 02138, USA

This landscape installation project has three different phases: 1 / Data collecting, analyzing and representing 2 / Installation development with digital fabrication methodology 3 / Full-scale display in Harvard Yard

Amoeba is one of the earliest living organisms on Earth. It appears everywhere in our everyday life and can change its form to fit into different spaces. The main concept of the "Urban Amoeba" series is to reveal the rapid climate change and disclose people's

Starting with the collection of environmental

awareness by creating a bizarre, unusual

pollution data, I explored different media

scenery in Harvard Yard. The three units:

and materials to visualize and thicken the

(1) Desert Amoeba, (2) Edible Amoeba and,

information, in order to represent it in a more

(3) Tropi Amoeba represent three different

accessible method for non-professionals. In

environmental issues: desertification,

the second phase, I focused on transforming

abandoned spaces, and global warming.

and manipulating these data through both software (Rhino and Grasshopper) and hardware (3D Printing Machine and CNC Router). This project is currently in the third phase: to build it in full-scale and display it in Harvard Yard at the Harvard Arts First

Festival from April 23-26, 2018.

M. LA YEAR 1, lANDSCAPE REPRESENTATION COURSE

PHASE 1 / DATA COLLECTING / ANALYZING / REPRESENTING

TRANSFORMATION STUDY MODEL 1

TRANSFORMATION STUDY MODEL 2

TRANSFORMATION STUDY MODEL 3

TRANSFORMATION STUDY MODEL 4

TRANSFORMATION STUDY MODEL 5

TRANSFORMATION STUDY MODEL 6

REFLECTION REFLECTION FORCE #01 COTTON

FORCE #02 STOPPER / MASKING TAPE

INFO #A

PLEXI / LASER CUTTING

{

PLEXI / LASER CUTTING

LOCATION #01

TRANSFORMATION STUDY MODEL 7

AREA #02 TRACING PAPER / PRINTING INK

FORCE #03 STOPPER / MASKING TAPE

LOCATION #02 PLEXI / LASER CUT

FORCE #04 FORCE #05 FISHING SINKER

FORCE #06 STOPPER / MASKING TAPE

LOCATION #03 representing parameters through several materials

PLEXI / LASER CUT

INFO #C

PLEXI / LASER CUT

INFO #b

TRACING PAPER / LASER CUT HOLE

{

AREA #01

{

TRACING PAPER / LASER CUT HOLE

PHASE 2&3 / INSTALLATION DEVELOPMENT AND FULL-SCALE MAKING

URBAN AMOEBA: EDIBLE AMOEBA

GRASSHOPPER SCRIPT PROCESS Tropical Bizarre Cactus

Herb Monstera / Species Fern

Edibal Landscape Urban Desrtification

3 TYPES OF PLANTS OF URBAN AMOEBA 11 PLANT SPECIES

1/30 3D Printing Study Model

{ PLANT } 7

NAVIGATION HUMAN ACT CURRENT LOWER LAYER COORDINATE SALINITY TEMPERATURE

GEOLOGY FOOD

EXPLOSION DRAWING OF DIFFERENT LAYERS

SRF MORPH TUBE ATTRACTOR AVG DIVIDE VORONOI

{ OUTPUT }

{ FARM MAP }

GRID SYSTEM SEARCHING

ATTRACTOR

TOPOGRAPHY SLOPE

ARRACTOR POINT

LOFT / REBUILD

MUSSEL LOCATION

22 PEBBLES, PINE TREE BLOCKS OR SAND 33 SOIL + SAND + OTHER PLANTING MATERIAL

glue

445 ASSEMBLE LINE CNC MILLING MAPLE WOOD BOARD 3D printing component (ABS) + Screw

55 NONWOVEN FABRIC BASKET + STAPLER LED LIGHT STRIP 66 SANDBAGS

7 PINEWOOD STRUCTURE +0 CM 3/4 inches Maple pieces + Water-proof coating

UNDERGROUND STRUCTURE -45CM 5 in. x 5.5 in. x 8 ft. Pinewood structure

LED LIGHT STRIPS

[ PLAN VIEW FROM THE BOTTOM SIDE ]

CROSS SHAPE 3D PRINTING COMPONENT + SCREWS

FULL-SCALE model EXPLOSION DRAWING

M. LA YEAR 1, ECOLOGIES, TECHNIQUES, TECHNOLOGIES COURSE

2017 / INDIVIdUAL WORK

PRoject 007 +

Tree-haus Interior Renovation Proposal for Graduate School Design Instructor / Steven Handel, Christopher Matthews Site / Chauhaus in Graduate School of Design, MA, USA Chauhaus is one of the busiest places in

provide an efficient path, the window

Graduate School of Design (GSD). GSD

became the barrier between Chauhaus and

community spends time here meeting

the yard. Moreover, Chauhaus does not have

people, having meals, and working. It is the

its own visual focus. It is a flat, empty space

heart and the core of the building.

filled with furniture and equipment. In this proposal, I tried to plant a Fiddle-leaf fig,

Chauhaus sits at the corner of GSD, its

a series of bushes and change the window

window face to the North-East side, natural

system in order to eliminate the boundary

sunlight goes into the place almost all day.

between Chauhaus and the yard and bridge

Next to the Chauhaus is a great yard with

the gap of the planting system. At the same

some maples and honey locuses. Many

time, I want to create a visual focus in

people enjoy staying there in Summertime.

Chauhaus in order to make this place more

However, the circulation system fails to

attractive.

ORIGINAL LAYOUY OF CHAUHAUS

ORIGINAL PERSPECTIVE OF CHAUHAUS

CHAUHAUS

F. FIG LEAF

BUSHES

PATH

BUSHES

YARD

CHAUHAUS

PATH

YARD

[ PROGRAM BEFORE / AFTER ]

[ LAYOUT BEFORE / AFTER ]

[ SECTION BEFORE / AFTER ]

YARD

SPRING

DAY01

FIDDLE LEAF FIG.

ADJUSTABLE WINDOW

SUMMER

DAY90

AUTUMN

DAY1000

WINTER

DAY3650

SECTION STUDY

COLOR INTERACTION

EXPLOSION DRAWING

LAYOUT AFTER THE RENNOVATION

B.ARCH YEAR 5, option studio DESIGN PROJECT

PRoject 008 +

Pop-up Cacti Workstation Material & Digital Fabrication Instructor / Min-Chieh Chen

2014 / INDIVIdUAL WORK

Site / Department of Architecture, NCKU, Tainan, Taiwan

"Every master started out as a beginner."

primary materials because of their structural features and the budget limitation. In order

This project aims to develop one's interests

to achieve one-man fabrication, the desk

in becoming an individual professional

was divided into 43 segments (less than 3 kg

through the processes of design-build,

per piece) and the tube set can be separated

the material exploration, and the digital

into 75 parts (less than 2 kg per piece).

fabrication. Since 2013, I set up Mezz Lab a pop-up shop not only to produce cement

After setting up the workstation, I can finish

pots with plants but also propagate cacti.

my work with a well-organized procedure

However, the production process always

in a neat working environment. The

requires various materials and hand tools,

workstation became not only a workshop

such as mixers, foam cutters, screws and so

for me but an attractive showcase when I

on to complete my works. Moreover, I found

took part in market events. In addition, the

it difficult to find a proper place to either

station can be easily set up or assembled in

produce my works or cultivate young cacti.

less than an hour. It is also highly portable since all the components were modularized-

The integration between different programs

designed.

and the required mobility of this workstation Time-Lapse

are the most critical issues in this project.

* This project was exhibited in Maker Faire

I chose plywood and steel tubes as the two

Tainan, 2014

07 Socket

At least 3 sockets, for laptop, light, and blender

06 Blending Container 13 Hot bond / Silicone To seal up the mold

05 Cement powder 5000 psi

08 Plastic pot

12 Soil container

TO breed the small cacti

14 Soil / Sand / Base material

09 Cacti

04 Measuring tape 03 Scrub sponge

Use as the buttom / basic material of the cement pot

11 Foam Cutter 02 Electric drill

To fix screws or blending cement

10 Screw To ensure the mold is well fixed

01 Foam / Styrofoam

mold making / the surface of cement pot depends mostly on the material of mold

NCKU DEPT OF ARCH YEAR 5 VICTOR WU

B.ARCH YEAR 5, option studio DESIGN PROJECT

pop-up cacti workstation program

A c

H I

a / clothing hanger b / deck c / metal net hanger d / TUNGSTEN FILAMENTS LIGHT e / cacti breeding plate f / FOAM CUTTER g / BLENDING / ROTARY PLATE h / sockets i / ADJUSTABLE CUTTING TOOL j / HELMET DECK

B.ARCH YEAR 5, option studio DESIGN PROJECT

desk : ply wood x steel frame With the help of both software (Rhinoceros, MakerBot, V-Ray) and hardware (CNC, 3D Printer Laser Cutter), I integrated several functions into this desk including: (1) one quick release foam cutter with a trimpot, (2) one set of parallel ruler, (3) one drawer for collecting materials for

WIRE HUB #001 electrode a

quick release wire HOLDER

WIRE HUB #002 electrode b

SWITCH OF THE LIGHT & FOAM CUTTER

producing cement pots with cacti, (4) two storage stacks for books, helmet, and other hand tools, (5) three 110V adapters, (6) an extendable deck, and (7) a trash collector. I used plywood as the main material because of its structural performance. For other materials, I adopted steel tubes for the desk frame and PLA for 3D printing components.

FOAM CUTTER PINE WOOD / METAL / PLA b

adjustable parallel ruler Ply WOOD / PLA

socket

WIRE HUB #002 ELECTRODE b

tenon a

pine wood e

WIRE HUB #001 ELECTRODE a

height adjuster PLA

tenon b PLy wood

desk extend component

PLA J

desk frame steel x black oil paint

TRASH COLLECTOR M

FLUORESCENT LIGHT

LIGHT / FOAM CUTTER SWITCH

B.ARCH YEAR 5, option studio DESIGN PROJECT

tube frame : steel tube x pla component "Mobility" and "one-man fabrication" are the two main goals of this pop-up cacti workstation. In order to fulfill the quick release system, I chose steel tube as another main material which can be easily fixed on any walls and provide stability and more storage spaces as well.

flange joint anchor bolt

TUNGSTEN FILAMENTS x FIXER

metal net holder quick release

cactus breeding plate pla x metal

Furthermore, steel tube has the potential ability to enlarge or reduce its size to fit in any size of spaces. The outline of the tube is also an advantage for 3D printing components to connect without any glues or screws. PLA plates and tubes also create a cactus cultivation area that allows me to cultivate cacti and other plants at the same time.

METAL NET HOLDER PLA

FLANGE JOINT steel

TUNGSTEN FILAMENTS / FIXER

deck x holder ply wood x pla e

t-fitting steel F

90* ELBOW steel

cross fitting steel

cement blender ply wood x pla x steel

3/4” - 4’ FLANGE steel

3/4” - 2’ FLANGE height adjuster steel x pla

B.ARCH YEAR 5, option studio DESIGN PROJECT

pop-up cacti workstation parts list / budget

WORKSTATION Tube fram / Desk / Light / Foam cutter /Blender

387.45 usd 931.6 hOURS

3D PRINTING COMPONENT

DESK / CUTTER SET

STEEL TUBE

PLA / Black & White

ply wood with CNC cutting / FOAM cutter

Φ 3/4” / Length 90mm - 813mm

39.19 usd

252.9 usd

65.13 usd

3D PRINTING COMPONENT

HARDWARE

PIPE JOINT

Maker Bot Replicator Dual

Screw / Clamp / Nut

STEEL METAL / BLACK OIL PAINT

21.68 usd

24.68 usd

35 hOURS 75

#S02

#p11

#SP1

#L01

#p10

#S10

#P02

#L02

#S09

#P01

#S01

#S08

#S03

#S07

#S06

#P04

#P03 #SP2

#P08

#P09

#P05

#S05

#S04

#S07

#P07

#P06

#SP4

#SP3

PLY WOOD BOARD 1200 X 2400 MM X 2 1000 X 155 MM X 1 200 X 650 MM X 2 THICKNESS / 18MM CNC CUTTING

B.ARCH YEAR 5, option studio DESIGN PROJECT

pop-up cacti workstation material list

MEASURING TAPE

X1 WIRE HOLDER A

X1 HEIGHT ADJUSTER

ELECTRIC DRILL

X1 WIRE HOLDER B

SINGLE WIRE HOLDER

X1 CROSS FITTING

DOUBLE WIRE HOLDER

X2 NET HOLDER A

NET HOLDER B

X23 T -FITTING

HAMMER

DECK HOLDER

CUTTER HOLDER

CLAMP

POWER SWITCH

X5 90˚ ELBOW

X2 3/4” - 2’ FLANGE

X1 TRASH COLLECTOR

I SCREWDRIVER

X2 FLUORESCENT LIGHT

PENCIL

∞ CACTI

X3 A TYPE NUT

RHINOCEROS FOR MAC

X3 B TYPE NUT

FLANGE JOINT

END JOINT

X2 METAL NET

X1 BINDING CLAMP

X3 SOCKET COVER BOARD

SOCKET

MAKER BOT

UPPER WIRE FIXER

X2 TENON A

X2 TENON B

X1 BULB SOCKET

X2 CACTI BREEDING POT

ANC BUTTOM WIRE FIXER

HEIGHT ADJUSTER

X2 DESK EXTENDED COMPONENT

X1 BLENDER COMPONENT

CHOR

CNC CNC EQUIPMENT

X30 SCREW FOR WOOD

REPLICATOR DUAL DESKTOP 3D PRINTER

X3 HEX HEAD CAP SCREW

9CM TUBE

12CM TUBE

15CM TUBE

18CM TUBE

21CM TUBE

24CM TUBE

30CM TUBE

X3 SCREW FOR CONCRETE

X9 TENON C

X1 TUNGSTEN FILAMENTS

X1 BLENDER

X1 BLENDER BAR

X1 CUTTER COMPONENT

37.3CM 42CM TUBE TUBE

46.9CM 49.6CM 56CM TUBE TUBE TUBE

X1 9CM TUBE

75.8CM 78CM TUBE TUBE

X2 81.3CM TUBE

B.ARCH YEAR 5, option studio DESIGN PROJECT

MATERIAL PREPARATION

tamping & air pocket releasing

SOF

sand

soil

TH IT

5000 psi cement

foam board

MOLD preparation / FOAM CUTTING WRA

curing for 48 hours

48 hr

A B B

MOLD MAKING & SEALing

mold removing & POLISHING

CACTI PLANTING & DECORATING

ALL OSE ENCL AP! G THE

CEMENT MIXING

PLUG

-IN!

PLA

A A

IN!

APPENDIX / Research & workshop

appendix +009

Camouflage Island Harvard GSD Penny White Project & On-site Workshop Project Director / Chohao Victor Wu Site / Kinmen, Taiwan

2019 / Professional work

Time / Jan. 2016 - Present

Due to the strategic location of Kinmen

drastically declined because almost 80% of

County and its spatial and ecological

the soldiers were assigned back to mainland

features, the distribution of plant species

Taiwan. The island became an abandoned

always reflected the military requirement.

place that stored the memory and history

The island was originally full of trees

of the Cold War era and the post-war

before the massive timber demand for boat

monuments. The land in Kinmen was

construction during the Ming Dynasty.

fragmented because of the military facility

Later in 1949, the government started to

construction. Until 2013, the government

broadly distribute Indian Sesbania and Beef

declared that all the landmines in Kinmen

Wood for managing the desertification and

were cleared. The local Kinmen people then

water resources. Kinmen island became the

accommodated military facilities and

frontline of the conflict between Taiwan and

developed their unique industry. For

China in 1956, numerous military facilities

instance, the famous bombshell-made

including bunkers, tunnels, anti- landing

Kinmen knife and the oyster farm which

barricades, and anti-airborne poles were

reuses anti-landing barricades.

constructed. Different plant and animal species were adopted as camouflage and the reinforcement of defense infrastructure. After the decommissioning of military control in 1992 the economy in Kinmen

Professional work

The development and the future of the military landscape in kinmen After the implementation of ‘Mini Three links’ agreement in 2001, Kinmen government was eager to develop this island. However, without comprehensive consideration and preservation plan, the military landscape is drastically destroyed by the developers for hotels and residential units. Tourism development ignores and eradicates this incredible history, and does not take advantage of these unique historical structures that have reshaped the land, the ecology, and local settlement. The precious historical military landscape has become a contested landscape. The research and workshop aims to document the disappearing military landscape in Kinmen and propose various repurpose strategies to the government in order to preserve the world largest remained Cold War landscape.

APPENDIX / PUBLICATION x exhibition x photograph

02 NCKU 103 THESIS DESIGN PROJECT review [ EDITOR / exhibition visual design ] / 2014 This is a collective review publication of thesis projects of NCKU 2014. As the editor and visual designer of the book and exhibition, I was responsible for setting up the standard colors of the visual design and the template layout. I also had to design the cover and poster, and meet with the printing shop. This book aims to present the diversity among 5 studios that focused on different domains among architecture, landscape architecture, and urban design projects. The most challenging task for me and my editor team was that we had to properly manage our time between thesis design work in order to distribute the posters and flyers 2 months prior to the final critic and publish the book 2 weeks after the final critic.

03 exhibition: 2016 tectonic becoming [ PROJECT MANAGER & EDITOR ] / 2016 "Tectonic Becoming" is the most significant architecture biennale in Taiwan. The main idea of this exhibition aims to discuss and display the relationship between architects, construction companies, and clients by 30 complete, outstanding architecture projects in the past 2 years. Each invited-studio was required to display both architecture drawings, photographs, full-scale models, and a detail section model. As the project manager and the editor of this project, I cooperated with the participated companies as well as more than thirty participated teams. In order to conquer the structural and budget issues, we explored the possibility of thin carbon fiber tube, the structure material of kites, as the main frame material.

03 Camouflage island 2019 penny white project fund [ project director / editor ] / 2019 Camoufalge Island: Re-imagining the Contested Landscape of Kindmen was one of the selected projects of 2019 Penny White Project Fund of Graduate School of Design, Harvard University. Began in 2016, I conducted onsite field research in Kinmen every year during summer time to document the disappearing Cold War ladnscape. After receiving the research funding from Harvard GSD, I further pubished the book to present the collective work from all the participated researchers, students. Additionally, I continuously conduct one-week workshop once every year since 2019 as a way to invite more architecture professionals, landscape experts, historian, students and people from every field to meet this precious island, preserve its unique military landscape and irreplacable historical context.

04 2020 Tainangram NCKU Cross-grades competition [ curator & EDITOR ] / 2020 Cross-grades Competition is one of the most significant event in NCKU since 2017. 'The prototype of future human's living and learning environment' is the core proposition of 2020's competition. More than 45 groups explored the site in Tainan, worked on their proposals with various approach during winter vacation and presented in hardcopy drawings, models, digital animation, and video representation. The juries of this year are Pacharapan Ratananakorn and Varat Limwibul from PAVA architects, Luis Enrique Flores and Armida Fernandez from Estudio ALA. With the serious impact of COVID-19, built-environment designers and planners is required to re-think how the space and programmes can be reorganized in order to fulfill the needs of new globalized living pattern.