THE MEANING OF 35 BLOCKS
35 different block combinations means 35 lost souls. The path formed by them leads to the subway entrance of People's Square, making up for the regret that the victims failed to return to their hometown.
• Dou Shuanghua, 37, Sichuan
• Wu Jing, 34, Anhui
• Liu Houjun, 28, Shanghai
• Liang Liang, 26, Liaoning
• Yang Jiafei, 26, Shanghai
• Yuan Lila, 25, Shanghai
• Pan Haiqin, 25, Shanghai
• Wu Jiao, 25, Hubei
• Gu Yinli, 25, Nantong
• Li Xiang, 25, Zhangzhou
• Yang Shengyong, 25, Shanghai
• Wu Cuixia, 24, Hubei
• Zhou Yian, 23, Taiwan
• Zhan Yang, 23, Jilin
• Luo Dali, 23, Anhui
• Li Na, 23, Jiangxi
• Zhou Xiaoyang, 23, Jiangxi
• Pan Ping, 22, Anhui
• Feng Xueqian, 22, Shanghai
• Du Yijun, 21, Yunnan
• TanWei, 21, Malaysia
• Meng Yan, 21, Sichuan
• Zhang Yan, 21, Shanghai
• Yang Chunyu, 21, Jiangsu
• Xie Luyan, 21, Hangzhou
• Qi Xiaoyan, 21, Anhui
• Xu Xiaojun, 21, Shanghai
• Guan Jinglei, 21, Anhui
• Mou Binbin, 20, Zhongqing
• Xing Zhengqiao, 19, Anhui
• Yu Miao, 19, Shanghai
• Zong Chengwei, 19, Shanghai
• Mei Hechun, 19, Shanghai
• Liu Yajie, 18, Henan
• Chen Changsheng, 17, Shandong
TAKE 35 LOST SOULS HOME
Dou Shuanghua Liang Liang Wu JiaoLi XiangLuo DaliFeng XueqianTanWei
Meng Yan
Zhang Yan
Yang Chunyu Xie Luyan
Qi Xiaoyan
Xu Xiaojun
Guan Jinglei
Mou Binbin Yu Miao Zong Chengwei
Yu Miao
Zong Chengwei
Chen Changsheng
Xing Zhengqiao
Du Yijun Li Na
Zhou Xiaoyang
Pan Ping
Yang Shengyong
Wu Cuixia
Zhou Yian
Zhan Yang
Gu Yinli Yang Jiafei
Yuan Lila
Pan Haiqin
Wu Jing
Liu Houjun
2
MASTER PLAN
THE WAY TAKE 35 LOST SOULS HOME
Start The end return home start 1 2 3 4 5 6 metro entrance 8 metro entrance 19
waterscape waterscape falls metro entrance lawn access point metro entrance 19 metro entrance 8
5 4 3 2 2 2 2 1 1 1 2 3 4 5
home 5 3
MODEL: 3d print model showing the way back
REAPPEARING THE CANAL
URBAN WATERFRONT SPACE DESIGN
Academic | Individual, 3nd year studio, 12/2021
Supervisor | Dersong Chung, Adjunct Assistant Professor
Location | Tainan Canal , Tainan , Taiwan
Scale | 7.24ha
STRATEGIES FOR THREE PROBLEMS AT THE PLANNING SCALE
Poor Accessibility
EXISTING CONDITION THE TAINAN CANAL WATERFRONTS
30mins 20mins 10mins start SITE + 20mins 30mins TaijiangNationalPark bus station near tainan canal main transportation route transportation route green corridorparkland mangroves and windbreaks
site site site site site parkland lower water leve(1.2m) normal water level(3m) resilience space normal water leve(3m) flood stage(6.5m) openspace national park sitewaterfront loop planning greenway river river river national park wedge greenspace waterfront corridor central urban loop river circulation breaking way connect connect invite site site site site site site + + + + + + + + + + + + elastic set back infiltrate existing green way Green space fragmentation Flood
5
02
Lin
Xihu
YonghuaPark ShuipingyuanPark DaliangEcologicalPark MaxwellPark 10mins x
HarborsideHistoricalPark
MoNiangPark QingpingPark
Park
台南綠地行走指南 TainanGreenlandWalkingGuide 根據農委會林業試驗所研究調查,台南的綠覆率為六都第一,台灣房屋 集團趨勢中心統計,全台南共擁有492座大小型公園,其中又以安南區 公園最多,共計98座,公園總面積同樣居全市之冠,達27.4萬坪,但 因安南區人口為全市第二高,以19.6萬人來換算,每人可享有的公園綠 地面積僅約1.4坪;反倒是人口少三倍,卻擁有25.3萬坪公園綠地面積 的安平區,人均綠地面積高達3.8坪完勝,成為市心精華區中,每人享有
ZOOM IN TURNING POINT OF
the site suffered from poor accessibility.
Water stagnation Illegal Waste Dumping Tides cannot drive the flow of pollution sources, resulting in pollutants at the bottom of the river bed.
x x x Improve accessibility Connect green space Prevent flooding MASTER PLANNING OF TAINAN CANAL WATERFRONTS site river waterfront loop wedge greenspace mangroves and windbreaks waterfront corridor central urban loopplanning greenway site +
最多綠地的地區。
TAINAN CANAL ACCESSIBILITY The turning point of tainan canal is a critical connector for the riverfront corridor and a stepping stone between the old and new urban areas of Tainan.But
More
The continuous development of the land around the waterfront has led to the destruction of the original ecosystem. The wetland park and surrounding streets will be flooded during a rainstorm COLLAPSE OF ECOLOGY WATER POLLUTION FLOODING torrential rain (≥350 mm in 24 hours) extremely heavy rain (≥200 mm in 24 hours) heavy rain(≥80 mm in 24 hours) new urban areas old urban areas Residential Area Commercial Area Commercial Area PO4 3O TNTNTPTP 2 pollutant precipitation reduced oxygen 1 1 3 3 4 2 2 6 1t ! a week wetland park waterfront corridor urban renewal area water flow
PROBLEMS IN TAINAN CANAL
than 1 ton of canal garbage is salvaged every week.
1.Remixaltitudedifferenceandcirculation
flowing
landform to prevent flood
2.P
urify water and keep it
3.Create
3.Flood
2.Waterstagnationandwaterpollution
Source Module large stone min = 100cm max = 150cm urban renewal area 30% concrete 12%steel 58% wood organic sludge plastic bottle Material canal small stone min = 30cm max = 60cm floating island fertilizer TP TN TN O2 Board WalkGreen WaterwayBridge Detention Pond Green Island Floating Island Green Island strong deposition flow flow filter Shoal shoal shoal precipitateprecipitate decomposedecompose weak Weaken Absorb TN and TP Purify solid matter naturally StorePrevent Step 3 3 3 1 1 1 2 2 2 ++ ++ ++ 1 1 1 2 2 2 3 3 3 flood stage (6.5m) 7 CURRENT SITUATION DESIGN STRATEGY PLANNING STRATEGY
1.Poor accessibility
MASTER PLAN
A.VIEW FORM DETENTION POND
when it's sunny, a lake is under seating stairs, people can walk freely there. When it's rainy , the terracing seat wall collects extra rain water , preventing it from flowing into the city. When the lake water rises, it floods the stairs one by one.
B.VIEW FORM BOARD WALK
SECTIONS
Through the reshape of landform by collection of material from urban renewal area, water is welcomed through engineered landform.Wetland provides habitat for wild species. It also provides opportunities for waterrelated recreational activities.
1 2 3 4 5
Scattered ecological green islands can help canal water flow and reduce silt deposition. Citizens can also stroll along the boardwalk on the ecological green island and enjoy the scenery of the Tainan Canal.
6 1 2 detention pond canal canal canal canal canal canal green island green island green island green island 3 4 5 6 flood stage (6.5m) floating island green island board walk entrance plaza detention pond terracing seat wall bridge 0204080 m 8
WATER REGENERATION
WATER SENSITIVE URBANISM FOR INFORMAL SETTLEMENTS
Academic | Individual, 3nd year studio, 5/2022
Supervisor | HonTa Chien, Adjunct Lecturer
Location | Vikas Nagar , Delhi , India
|
INFORMAL SETTLEMENT
Many informal settlements in delhi lack adequate infrastructure and access to clean drinking water, and Vikas Nagar, an informal settlement along the sahibi river, is one of the worst affected areas.
PROBLEMS&STRATEGIES
PROBLEM 1:Unstable Water Supply System
PROBLEM 1
The rich use tap water without limit, the poor wait for the water truck to bid
PROBLEM 2: Seasonal Floods and Droughts
PROBLEM3: Lack of Drainage Facilities
Water supply and demand are unbalanced in the monsoon and dry seasons
PROBLEM 2 PROBLEM 3
The Sahibi river is the capital's most polluted body of water due to the direct inflow of untreated sewage from surrounding populated areas.
SITE ANALYSIS OF VIKAS NAGAR water truck stop whyistherewatershortage? sahibiriver
Public Toilet Agriculture Pond Community Framing Green Infrastructure Retention Pond ZONING PLANNING
ECONOMIC POLICY HEALTH POLICY
PLANNINGPROBLEM SOLVING
SEEKING x sahibi river greywater rainwater sewage water monsoon season dry season Dengue fever Chikungunya 15 liters per day 40 liters per day 42 liters per day 40 liters per day 40 liters per person per day water pump water tank truck Vikas
drainage drainage flow flooded area the contaminated area
POLICY&
PROBLEM
Nagar
03
Scale
20ha water pump 20liters per person per day price : 0₹ 1 4 2 water truck 40 liters per person per day price : -88₹ / t water tap price : -6.46₹/t 3 water tower 5000 liters price : -83₹/t pump built-up agricultural land dry season monsoon season water logging locations sweage water the contaminated area LACK OF WATER PUMP
FLOODS AND DROUGHTS SEWAGE D emand of water A vailable water supply 1991 2001 2011 2021 THE SOURCES OF DRINKING WATER India Delhi West
SEASONAL
suitable for drinking unsuitable for drinking poor water quality informal settlement
WATER QUALITY 9
WATER PROBLEM IN DELHI
POOR
WATER CYCLE CONPECT
GREYWATER
WASHING BASIN
BATHROOM
RAINWATER
PRETREATMENT SECONDARY TREATMENT
ROOF
ROAD
SEWAGE WATER
TOILET
RAIN GARDEN
BIOSWALE
RAIN GARDEN
PERMEABLE PAVING
PUBLIC TOILET
corchorus filter community farming sewage fed into ponds for biological treatment secondary treatment pond tertiary treatment pond
ANAEROBIC PONDSFACULATIVE PONDSMATURATION PONDS SAHIBI RIVER
ponds faculative ponds maturation ponds
anaerobic
STEP1
PUBLIC
toilet
STEP2
secondary
+
rain
STEP1 STEP2
TOLIET
septic tank rain garden/bioswale detention basin permeable paving STEP2
STEP3
treatment STEP1 STEP2 pretreatment
STEP1
bioswalegarden corchorus filter public toilet community farming retention pond
NEW RESIDENTAL CLUSTER
10
PLANNING PROCESS MASTER PLAN
STEP1 Build slope protection according to the flooded area
revetmentnew revetment secondary treatment tertiary treatment
Build wetlands on the edge of communities and rivers
Build green infrastructure according to water flow direction
STEP2 STEP3 STEP4 retention pond
pond Public Toilet Community Plaza vetiver grass filter Community Farm Rain garden Retention Pond Pavement Anaerobic Ponds Faculative Ponds Maturation Ponds River Revetment
LEGEND Sahibiriver
1 2 3 4 5 6 7 8 9 10 11
11 10 9 8
7 5
-4.5m -5m
-6m 0204080 m housing
4 11
1 2 6 4
flooded areaold
pretreatment surface runoff high—low water flow green infrastructure public toilet retention
Arrange community housing community farming
SAHIBI RIVER WETLAND SYSTEM
THE PRODUCTIVE CYCLE OF THE WETLANDS
PRODUCTIVE AND RESILIENT COMMUNITY
AGRICULTURAL POND PRODUCT
THE PROCESS OF WASTE WATER TREATMENT
MATURATION PONDS tertiary treatment pond
agricultural profit
To market Crap rice and vegertables
12 -0.6m -0.75m -0.75m -0.75m -1.5m -0.75m -2.5m -2.5m -2.5m -3m -3m -0.3m -5m -0.75m -0.75m -0.75m -6m -0.75m -0.5m -0.5m -0.5m -0.75m
URBAN WILDNESS REBIRTH
CARBON-REWILDING EXPERIMENTS OF URBAN NATURE RESERVE
Academic | 3nd year studio, 07/2022
Supervisor | Dersong Chung, Adjunct Assistant Professor
Team Member | Xiongdong Jin, Wenting Shi
Contribution | Site Analysis, Master Plan Design, Strategy Drawing, Agroforestry
Ecosystem Design and Visualization, Renderings Drawing
Location | Tolworth Court Farm Fields, London, UK Scale | 58ha
CARBON-REWILDING ADDRESSES BIODIVERSITY LOSS AND CARBON EMISSIONS
Carbon-rewilding is a typical natured-based solutions. It does so against a backdrop of the twin challenges of climate change and biodiversity loss in the Anthropocene. This project fosters conversations and generates strategys that address our relationships to the non-human entities and environments around us. Finally, dynamic urban habitats will be created and carbon sink will be achieved.
04
13
DISTRIBUTION OF WILDLIFE HABITATS
0°18′W0°17′50″W0°17′40″W0°17′30″W0°17′20″W0°17′10″W0°17′W0°16′50″W0°16′40″W0°16′30″W0°16′20″W0°16′10″W
ACCESSIBILITY & CONNECTIVITY
Traffic arterial road divides site and regional blue-green network
Blue-green Network
TolworthTolworth Court Farm Fields
Traffic arterial road
Green BeltMetropolitan Open LandOther open space
ECOSYSTEM VULNERABILITY
Heavy rainfall in rainy season causes soil organic carbon loss
flood
Fields and hedges damaged & Animal habitat loss
Low-lying area: Flood risk in rainy season
Large Marsh Grasshopper Water Voles
scrub the wasteland broadleaf mixed and yew woodland acidic, calcium, neutral grassland improved grassland habitat
main distribution area of animals
The main plants of the site:
Elm TreeOak TreePerennial RyegrassParrot Feather Watermilfoil
Few habitat types & High ecological sensitivity
cut down trees destroy grass species invasion
PUBLIC PARTICIPATION
Illegal grazing and Lack of public engagement
Lack of public participation in the site, failure to effectively utilize green space resources and potential value. The environmental educational and recreational value of the site should be developed.
Profile
Topographic
LondonRoyal Borough of Kingston upon Thames
Egret
Common Brimstone Butterfly
Eurasian Beaver
SITE
14
CURRENT SITUATION
CARBON-REWILDING STRATEGY PLANNING STRATEGY
1.DETERMINE
REWILDING SITUATION
DESIGN DESIGN
THE MAIN LINE
STRATEGY PLACEMENT
SHAPE STREAMLINES
PUBLIC PARTICIPATION culvert forest farmland grassland wetland watch educate experience
2.HABITAT
3.CONTOURS
4.ADD
ACCESSIBILITY&CONNECTIVITY
ECOSYSTEM SECTION
ECOSYSTEM SECTION
ECOSYSTEM SECTION 2.FIELD 1.ENTRANCE2.FIELD Main roadForest Secondary road Grassland LACK OF APEX PREDATOR UNDERSTORY Lack of understory development Lack of apex predator
regeneration along timberline ecotone Lack of management by mowing and grazing, decreased SOC and TN stocks in the topsoil layer Wetland area decreased with increasing invasive species SPECIES INVASION AREA EXPANSION AREA REDUCTION Citizen Zoo Fundraise Guided walks Government Lower Mole Countryside Management Project CORES CHAIN CO-EXISTENCE CARBON SINK Residential area Wildland core area Low interference secondary wilderness landscape Secondary wilderness landscape Wildscapes Protection Rewilding Creation Wildland buffer zone Sustainable use area > 30° 40° Rana chensinensis Common brimstone butterfly Cattle Eurasian beaver Arvicola terrestris Egret Falco tinnunculus
HABITAT
HABITAT
HABITAT 4.FARMLAND HABITAT Year 30 Year 10 Year 0 Year 30 Year 10 Year 0 Year 30 Year 10 Year 0 Year 30 Year 10 Year 0
FUNDRAISING IDEAS 2.EDUCATIONAL APP 3.COMPOST REWILD YOUR WARDROBE BUY A GIFT CERTIFICATE DonateDedicateReceive your gift Upload photosIdentify specieslocate species Volunteer Plant Compost Composting Organic waste 15
WILDLIFE HABITATS-BASED
ECOSYSTEM TYPES PUBLIC PARTICIPATION 1.ROAD 1.FOREST
2.GRASSLAND
3.WETLAND
Poor
1.GRASSLAND
2.WETLAND
3.FOREST
1.
MAIN CONCEPT: 4C MODEL
CARBON: Carbon sink
CHAIN: Ecosphere
CORES: Rewilding through four habitats
CO-EXISTENCE: Harmonious coexistence between man and nature
A. VIEW FORM THE OUTDOOR CLASSES
From the viewing platform, people can watch grazing and returning birds and butterflies. The government and LMCMP can restart guided walks, organize activities of environmental education and bird watching, let people have enough opportunities to get close to nature.
B. VIEW FROM BIRD WATCHING PLATFORM
On the basis of micro terrain treatment, the production and free growth of spontaneous plants are used to carry out vegetation rewilding, and the subsequent rewilding process is managed sustainably through seed bank placement. The outdoor classroom provides a natural space for citizens to teach biology, produce planting and experience ecology.
LEGEND 30 Agricultural, pastoral and forest rewilding test site 29 Wetland, grassland rewilding test site
CHAIN CARBON CORES CO-EXISTENCE N 0100300 1 21 13 11 16 27 8 18 23 10 28 3 7 6 20 12 22 29 2 1 9 19 17 1 14 24 26 30 4 25 15 1 5 +12m 9 16
MASTER PLAN
+14m +6m +6m +2m +12m +12m +22m +14m Sightseeing Viewing platform Environmental education Bird watching Pasture Weed forest You're here You're here
DESIGN ECOSYSTEM TYPES
GRADED
Large marsh grasshopper Egret Kestrel Commonbrimstone Cattle Oaktree Oaktree Wildoats Prunella PrimroseRyegrass Commonwheat Europeanash DutchElm Maize OPEN AREA: people activity area BUFFER AREA: human-nature interaction CORE AREA: people are forbidden to enter Volunteer plants growth Add wetland plants to purify water Increase animals and use their habitats to fix carbon Ecological classification Grassland Habitat Add hydrophilic platform Egret Eurasian Beaver Water Voles AGROFORESTRY ECOSYSTEM GRADED PLANNING
PLANNING
GRADED
PLANNING GRASSLAND-WETLAND SYSTEM DIKE-POND SYSTEM Doc Soc C Soc manure Soc C WEED FOREST GRASSLAND BUFFERROAD FARMLAND different woody stratus improve pasture with woody species improve animal nutrition and welfare greenhouse mitigation water and biodiversity conservation soil nutrient cycling soil nutrient cycling SECTION SECTION REINTRODUCTION OF ANIMALS AND PLANTS REINTRODUCTION OF ANIMALS AND PLANTS REINTRODUCTION OF ANIMALS AND PLANTS SECTION Cattle Large marsh grasshopper Common brimstone Egret Falco tinnunculus Grazing Bird watching farmland grassland forest 4C MODEL: CORES: rewilding CHAIN: ecosphere Carbon Sink CO2 CO2 O2 CO-EXISTENCE wetland grassland 4C MODEL: CHAIN: ecosphere Carbon Sink CO2 CO2 O2 CO-EXISTENCE farmland wetland grassland forest 4C MODEL: CHAIN: ecosphere Carbon Sink CO2 CO2 O2 CO-EXISTENCE Develop grassland habitat Develop forest habitat Develop farmland habitat Dewild and rewild structure removal tree planting volunteer plants growth walking system improved introduce agricultural activities build leisure facilities develop cow farming build livestock movement 1 2 3 4 Net A Net B Reset Net A Reset Net B grassland 1 grassland 2 weed forest viewing platform framland 0m 40m 80m 120m 160m farmland forest Oak Reed Water Voles Egret Picnic Wetland interaction Eurasian Beaver 30m 60m 90m 120m 0m wetland grassland broad-leaved forest grassland wetland biodiversity improvement Adaptive rewilding in different areas Wetlands conserve water and form biological habitats BUFFER ROAD BUFFER WETLAND WETLAND BUFFER Doc C C Soc C C C soil nutrient cycling Soc C C C soil nutrient cycling Doc C C Oaktree Egret Betula FritillaryReed Calamus Zoysia Ashtree WaterVolesEurasianBeaver broad-leaved forest grassland seed bank farmland wetland wild-flower meadow Terrain modification Seed transplant Spontaneous plants growing Dewild: dike-pond system Place natural experience facilities Rewild:
Dewilddike Rewild-pond OUTDOOR CLASSES DIKE-POND SYSTEMSURFACE WETLANDSEED BANKWILD-FLOWER MEADOWS Soc Soc Doc Doc C C C C C C C C C C C C C C C C C C C soil nutrient cycling soil nutrient cycling dewilding dike with different vegetables rewilding pond with spontaneous vegetation greenhouse mitigation biodiversity improvement 17 Seed bankEgret Batrachia Fish Butterfly Chamomile Mulberry Outdoor classes Egret Mulberry Butterfly Poplar ChrysanthemumThistleBuddha'sGrassCalamus Willow Walnut Cabbage 30m 60m 90m 120m 0m
wild-flower meadows, wetland, grassed swales
17
05 OTHER WORK
Rebirth of Water
Liming New Village Water Environment Renewal Plan
Award of Excellence - The 16th TILA Student Landscape Design
Through the Woods
Landscape Healing Space Design
Geodesign Workshop
Folding Taichung
Raft Creek Waterfront Design
Landscape Design Studio (II)
Behind the Art
Art Exhibition Space Design of Art Green Parkway
Landscape Design Studio (III)
IN-N-OUT
Transformation Plan for Houhu Industrial Park in Chiayi City
Landscape Design Studio (VI)
Landscape Design Studio (VI)
18
( Individual work ) ( Individual work ) ( Individual work ) ( group work ) ( group work )
Visual Resource Management in Sun Moon Lake
Academic : Group work, 4th year studio, 11/2022 Supervisor : You-lan Yuan Location: Sun Moon Lake, Nantou, Taiwan Contribution : Basic mapping drawing, Landscape character analysis, Sensitivity Level Analysis, Visual Resource Inventory ( in ArcGIS Pro )
Basic mapping
Landscape character analysis, Sensitivity Level Analysis, Visual Resource Inventory (
( ) : 第四四節 節 分析析單單元元結果 果 本次視覺景觀資源分析結果如下 ( ) : 第四四節 節 分析析單單元元結果 果 本次視覺景觀資源分析結果如下 山脊與山谷分佈圖 三 景觀類型分佈圖 景觀類型分佈圖 ( ) : 第四 分析 元結果 果 本次視覺景觀資源分析結果如下 low medium high Visual Resource Management in Sun Moon Lake ( Group work ) My work :
in
) 第四四節 節 分析析單單元元結果 果 本次視覺景觀資源分析結果如下 19
drawing
ArcGIS Pro
+ + ( ) : 第四四節 節 分析析單單元元結果 果 本次視覺景觀資源分析結果如下 山脊與山谷分佈圖 三 景觀類型分佈圖 三 景觀類型分佈圖 三 景觀類型分佈圖 三 景觀類型分佈圖
