PORTFOLIO
of
LANDSCAPE ARCHITECTURE
Xinge Zhang 2018-2020 Application for MLA Program, University College London zxgbfu@outlook.com B. Engineer, Beijing Forestry University
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park design: 21 ha
Survival in Flood
Extend the Boundary of Landscape Architecture
Landscape
Flood refuge flood utilization town planning: 2700 ha
Revive of Guiyu Flood Rescue Industry Upgrade
PARK
The Flood Park for Shimen County to Provide Shelters for Villagers
BUFFER
The Strategy for Repairing the Ecology, Economy, and Social Structure of the E-Waste Polluted Area in Guiyu, Fujian
Ecology repair economy and social structure rebuild green buffer zone
Wind Resistance Rural Infrastructure
wind resist prototype design: 4 ha
Block the Wind
PROTOTYPE
Prototype Design Strategy Formulation to Solve Urban High-Rise Wind Problem
Grid-based analysis section and plant group analysis wind resistance + activities
Other Works
INFRASTRUCTURE
Flower House Bamboo Pavilion Recycle House
For me, landscape architecture holds particular relevance to using form to solve different problems through out different scales. Beisides, even though the resolution to it combines social, ecological, cultural and special conditions, it can still have the beauty of order and social concern, which is interesting to me and has become a clue to my understanding of the truth behind the complex project of Landscape Architecture. Besides, I believe there are remedies to the unbalanced space use between developing countries and developed ones in landscape design, which affords a panoramic view of the world we live in, safeguards space justice and improves the environment through extensive use of knowledge. In other words, we can contribute to a more equitable distribution of space and a better environment through well-conceived top-down regulations and laws and develop systematic and holistic solutions to social problems by extending the research scope. These interests have led me to pursue a professional Mla degree to explore how these questions can inform landscape architecture and what is the boundary of landscape architecture. I hope this portfolio will illustrate my research interests, my growth as a student and my potentIal to succeed as a Mla student in UCL.
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01 Survival in Flood the Flood Park for Shimen County to Provide Shelters for Villagers
In this case, I combine the park design and flood escape site for local residents. Meanwhile, starting from the construction of refuge and rescue site and residents' living activity site, I puts forward suggestions and proposals in line with local culture and historical characteristics for the future site development and people's lives, so as to help the site achieve flood shelter and have the power of sustainable development. Location: Shimen County, Hunan province ,China Date: 2020.11-2020.12 Typology: Climate Resilience& Design Research Scale: 21ha Individual Work
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BACKGROUND: the Town Threatened by Floods Due to the uneven distribution of precipitation in time and space, heavier rains from May to August, local floods are often formed during this time. The floods come and go fast. The huge terrain drop caused a large number of floods in Lishui to flow into Dongting Lake in a short time, and Shimen County, which is close to the mouth of the Lishui lake, suffered short-term catastrophic floods. Besides, due to climate change, the flood water level rises every year, the village needs a new rescue place to help them survive in more and more extreme climate. affected residents
the Water Level of the River Changes Dramatically m
rail way
expressway
road
site
residential area
m/s
water level
flow
climate change leads to greater changes in flood water levels, suggesting that the dike near the river does not function anymore.
Agricultural Loss Due to Flood ten billion dollars
0
1950-19591 960-1969 1990-19951 970-1979 1980-1989
farmland annual damage flood frequency
Death and Economic Loss person 7000 6000
death
financial ten billion loss 450 dollars 400
62.66m 1953 flooding tide: 61.57m 2003 flooding tide:
350 5000
300
4000
250
3000
200 150
2000
100 1000 0
0M 100M
300
600M
N
1900 flooding tide:
50
1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001
0
The land on both sides of the river is often reclaimed as farmland, and the terrain is flat. There are only a few flood control measures near the river bank, so it is easy to be affected by the unpredictable ultra-high water level.
56.31m
village
farmland
river
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Escaping Sequence in Shimen
Survival Factor edit source from the summer memory
supporting resources 34.9 tons
1.94 tons
2770 beds
Escaping Speed Varies with Age age
Drainage Phases in 7 Days
1-2 days
3-4 days
5-6 days
The floods do not continue for a long time. Usually in the first 1-2 days the floods will submerge the whole town. In 3-4 days, part of the flood water will subside. Then in 5-6 days, most of lands will emerge from the water. And in 7-8 days, the whole town will get out of danger.
1.25-1.32 m/s
>60
1.25 m/s
<14
1.48-1.51m/s
15-59
18.5%
61.8%
19.7
population age structure
Opportunity Place for Flooding Shelter
0M 40M
A
120M
300M
N
Shelter Size
Shelter Unit
2m
market
village
school
cropland
government
court
1.2m
2m 1.2m waterproof cloth + sticks
a bed scale for one person restroom clinic
cap
common medical support for 100 people individual supply
800 people composition an area line arrangement
A'
Section A-A'
extreme flood level normal flood level the only dam for the village
2770 people scale in site (4.1ha)
layer arrangement
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CONCEPT: TOPOGRAPHY AS SOLUTION After fully understanding the relationship between the site's demand for refuge and its influencing factors and hydrology and topography, different escape route schemes, flood prevention and refuge strategies are formulated for the site.
Step One: Escape Route Design option 1
option 2
option 3
option 1
linear path building
Step Two: Section Design
option 2
Longest Length
option 3
cover+linear path building
Step Three: Topography Design
option1 option2 option3
select select
Total Length option1 option2 option3
632 meters 494 meters
622 meters
2068 meters 2767 meters 2071 meters
Evaluation Flood Resistance dam flooded area hill bridge uplifted platform
backwater pits
Survival Factor bypass culvet
dam route
add refuge platform
flood buffering
purify
route combine
flood route medicine shelter escape route
Consistency flood management water purify engineering requirment
dig deep into the flood plain
Site History terrain+bridge
farm texture
extract
scale & transformation
topography forming
escape passage support
farmland texture continuity road accessibility
Activity terrain+platform+tent
terrain+tent
bridge route
refuge island
topographical support
dig and fill balance
shelter construction
sports communication playground child activity camping elder space theater outdoor meeting space
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Masterplan The final plan of the site is generated on the basis of the best terrain solution selected. At the same time, different activity areas are planned in the site to meet the activity needs of different residents, so that the flooded park can serve the whole community as the activity center of local residents in the long dry season.
17
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Lu ea nc t L h aw La yg r wnn ro d R u e
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Ev ac ua tio nP la Ac Pl tiv at Pu formity tform
15
8
11
9
placing temporary shelter units
4
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18
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Activity Arrangement
1. Front Plaza 2. Yoga Lawn 3. Grass Skiing Zone 4. Meditation Garden 5. Water Playing Lawn 6. Residential Garden 7. Water Purify Area & Wetland 8. Great Lawn 9. Children Playground 10. Rain Garden 11. Communication Corner 12. Lunch Lawn 13. Residential Theater 14. Supply Storage Platform A 15. Supply Storage Platform B 16. Sports Area 17. Camping Lawn 18. Evacuation Commend & Watch Tower 19. Evacuation Platform
3 12
13
14
1
2
0M 10M
30M 70M
N
After Flood Occupation
Construct temporary shelters on the terrain
1-2 days
Flood water purification to supply people live in the shelters
5-6 days
Flood water goes down
3-4 days
Moving out of the shelters and begin to rebuild the homeland
7-8 days
after flood back off
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Site Elevation and Topography
Taking the terrain as the medium, the designer combines the final morphological results and plant design to achieve flood resistance, sustainability, site history and activity.
Terrain Types
Model
Grass Skiing Slope
Clear Water Reservoir
Water Purification System
Draining Wetland
Shelter Platform
Escape Passage
Enlarged Platform As Shelter Units
Bulwark
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Site and Flood Water Occupation During Different Phases
Through setting culverts and depressions under the flood retaining dike to collect water, micro sunk Bay and aquatic plant planting, the site can be used as a water storage and scatered filtration station . When living in the shelter unit, villagers can take water from the park; after the flood subsides, the surplus water can be returned to nearby farmland for irrigation through underground pipelines.
Flooding Phases Section A-A' Park as Flood Buffer and Refuge Space
Shelter Phase( 3-4 days after flooding)
Normal phase (15 days after flooding)
Section B-B' Park as Survival Space and Water Purification Land
Section C-C' Park as Recreation Center and Agriculture Water Supply B'
A' A
C'
C B
shelter build rainwater accumulation
ecological retention area
rescue daily activities
escape
water source acquire
shelter unit
water collecting route
picnic sports
Concrete
grass skiing Well-drained soil
Permeable Gravel impounding reservoir (collect & buffer)
Water Volume
Concrete
root putrification Concrete impound ingreservoir
Flooding Water Level flooding wetland
Impermeable soil
grass & bush wetland
hard paving
wetland
hard paving
confluence
ecological retention
farm irrigation confluence
hard pavement
submerge permeatable grassland
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02 Revive of Guiyu The Strategy for Repairing the Ecology, Economy, and Social Structure of the E-Waste Polluted Area in Guiyu, Fujian Guiyu imports a large number of electronic waste from all over the world, and its classification, dismantling, recycling, and the extraction of precious metals such as gold from the cheap waste have allowed Guiyu's people to accumulate wealth in a short time. However, the rough treatment process and a large amount of waste residues also caused serious pollution to the local soil and groundwater in Guiyu. The incineration of organic matter releases a large amount of harmful gases, destroys the ozone layer and causes the greenhouse effect; This case is based on the above background and from the designer’s point of view, combined with Guiyu’s history, geography, location, economic and industrial structure, population structure and other aspects to analyze and think, take the landscape ecological restoration as the starting point, and combine the adjustment and innovation of the industrial structure.
Location: Guiyu, Fujian, China Date: 2020.09-2020.10 Typology: thesis project Scale: 2700 ha Individual Work
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BACKGROUND: World's E-waste Flow China processed around 70% of the world’s e-waste in 2010; the rest goes to India and other countries in eastern Asia and Africa, including Nigeria.
30% of e-waste imported to the three provinces goes to Guiyu
70% of e-waste goes to the three southeast provinces: Zhejiang, Guangdong, Fujian
70% of the worlde-waste goes to China
Qingdao
Nanjing
England
Shanghai
Yongzhou
Hangzhou
Ganzhou
Nanning
Guiyu
Guangzhou
Korean
Fuzhou
Wenzhou
Shenzhen
Haikou
HongKong
Tailand
Solid Waste
Shantou
Taibei
Screem Glass Batery Metal
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Logistics and Pollution Distribution
Recycling Reverse Logistics Reverse logistics refers to the close final customers to recycle waste materials held by each node enterprise supply chain, which includes five material flow: Direct resale product flow, and then processed product stream, reprocessed parts flow, scrap product flow and scrapped parts flow. Guiyu belongs to the last three parts and it is important for it to grasp development opportunities with the location advantages and the background of recycling workers of Guiyu, and to find a new path for the e-waste recycling industry in combination with ecological transformation and environmental development.
Disassemble Attribution in Guiyu
product flow
global e-waste
20,000,000 tons woodland
plastic
structure
the amount of e-waste handled in Guiyu
cover raw material supply assemble
1,550,000 tons
glass
chip disassemble cropland
screem
plastic
camera
glass
battery
screem
reprocess flow in GuiYu
poisonous liquid
residential
metal
Guiyu's E-waste Flow
ewaste import
market distribution
human classification
plastic melting pollution level
human dismantle
classification
household metal melting
local retailer collect
export
Ⅰ(heavy metal + liquid pollution) Ⅱ(heavy metal + solid landfill) Ⅲ (solid landfill) Ⅳ(contaminated farmland)
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CONCEPT: REBUILD THE INDUSTRIAL CHAIN In terms of the development driven by landscape, combined the economic industry theory of reverse logistics and the upgrading of personnel skills, I carried out distribution about the surplus labor in the process of transformation, so as to retain the recycling industry and implement pollution purification. new buffer + factory area
BEFORE
household classification
electronic waste import to village
e-waste exposure to people
highway expressway branch road railway walkway
forest/woods marshland landfill park river/pond cropland village commercial area+ recycle
Unreasonable Landuse
scattered landfill
poisonous gas kid lead poisoning rate 81.8%
house hold metal melting
Ecological Destruction
Economic Unfairness 70%
household factory owner
30%
river polluted
More land polluted crop polluted
worker/ farmer
food expose SCATTERED LANDFILL (12ha)
RECYCLE GREEN SPCAE
AFTER
selected e-waste import to factory
factory classification plastic
safe intermediate product
concentrated landfill
processing
Reasonable Landuse Guiyu Fund Recycle Company
selling land protection
house hold metal melting
market selling
Income Increase
plant Skilled workers Business managers Recyclers Ecology training managers
Ecological Sustainability soil use cycle
mineral dressing
replant
collect
metal extracting (Cr, Cd, Cu)
0M 150M 300M450M
N
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Phasing Strategies Phase Ⅰ (1 year: identification of pollution levels and contaminant isolation)
Phase Ⅱ (2 years: soil test and clean stage two)
Phase Ⅲ (5 years: green space and new recycle wedge construction )
Phase Ⅳ (10 years: construction and landuse structure complete )
Human Resource Distribution
Human Resource Distribution
Human Resource Distribution
Human Resource Distribution
10%
10%
15%
10%
75%
10%
50%
A clean area B clean area C clean area
clean stage two planting stage Ⅱ for traffic node planting stage Ⅰ for marshland and park
10%
45%
10% 20%
recycle+residential area medium factory family based recycle
10%
15%
10%
20%
20%
D area F area E area
marshland construction stage Ⅱ communnity planting marshland construction stage Ⅰ green infrastructure construction
50%
10%
G area I area H area I area
residential forest farmland
river railway express road
forest river fllooding isolation bussiness residential
Human Resource Distribution business ecological prossessing
recycle argriculture others
The land purification is divided into four stages: the first stage is based on the correlation between the three recycling industry modes in Guiyu Town and the pollution level obtained from the previous adjustment and pollution sampling analysis in Guiyu Town. The land pollution in Guiyu Town is identified and divided into three levels and are taken corresponding pollution treatment measures. In the second stage, land purification has entered a new stage. The second and third-level soil pollution will be tested and planted with plants, and chemical agents will be added and composted on concentrated contaminated plots. In the third stage, the construction of the overall industrial chain framework and the construction of a wedge-shaped recycling site were started, and public green spaces were planted and the spatial quality of the qualified soil was improved, and an isolated greening system for the entire town was constructed. The fourth stage is to complete the establishment of recycling sites and public green spaces, strengthen roads and transportation links with surrounding sites. Through the research and development and reproduction of recycled products, and Shantou, Shenzhen, etc. the Electronic Development Center establishes contacts to provide a basis for greater development.
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GREEN BUFFER DESIGN
Masterplan
The design of the new wedge-shaped green space focuses on the harmless treatment of the recycling industry and the recycling development of the recycling industry economy. All the steps of dismantling and plastic waste that is likely to cause harm to human health and plastic waste are moved to the factory in the green wedge.Through the long-term phased enrichment plant planting and the green isolation belt, the pollution of the soil by the waste liquid and solid garbage can be reduced. At the same time, the landfill camp formed by dismantling a large amount of waste solid waste to landfill will become a sports field to provide outdoor activities for local residents.
damage to local people health
THREATEN
solid waste accumulation
PROBLEM
Recover
STRATEGY
CONCEPT
industrial structure unsustainable
Reprogramme
sewage treatment works
labor force imprisonment
factory waste water treatment plant
Reuse
WEDGE AS BUFFER
New Public Green Space
STRUCTURES
New Disassemble and Sorting Factory
Waste of E-waste Assemble
MATERIALS
subsurface filtration through willows on gravel bed
surface flow wetland treatment
retention pond
oxygenation and UV exposure
outlet to river
New Pollution Buffer Zone
Local Construction Material
Buffer Structure Development poisonous landfill recycle industry zone residential zone
poisonous landfill
soil putrify recycle industry zone buffer residential zone soil putrify
landfill park persistent putrifying land recycle industry zone buffer residential zone
Villagers come to get intermediate products and do activities.
0M100M 400M
700M
N
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Cross Section And Streamline Landfill treatment
Wastewater treatment
factory
factory pollution source remove
shallow-root metal addressing plants
dig
hyperaccumulation crops planting
add soybean lecthin+earthworm+pile
landfill use
detention pond
landuse cycle
selected e-waste import to factory
flow wetland treatment
classification
plastic processing
oxygenation and UV exposure
safe intermediate product
market selling
polluted water
public site
refill
landfill + outdoor activity
outlet back to the river
playground construction
solid waste treatment
house hold metal melting
polluted water treatment solid waste
factory
water treatment
sports activity containminated soil
factory
crushed waste & treated soil
original soil
water treatment
protected layer
soil tratment
wetland rock layer
clean soil
site topography
special agent
runoff
The step-by-step greening planting cycle is combined with farming and recycling skills of the locals, so that people of different skills, different ages, and different cultural levels can find suitable jobs in the local area and re-establish the connection with the land. The integration of classification, dismantling, reproduction, and logistics is a threedimensional sustainable economic structure combining soil purification, production, and repurification cycles.
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Plant Section Metal Refining
Marketing
Section Ⅰ Section Ⅱ Section Ⅲ
Factory Waste Water
Hyperaccumulation Crops Planting
Section Ⅳ
plant+ toxic substance absorb
Section Ⅴ
toxic plant collecting
landfill treating
water quality monitoring
SOIL PORTION
contaminated soil clean soil
Section Ⅰ surface flow
Section Ⅱ subsurface flow- Salix filter Section Ⅰ
Tree
Section Ⅱ
Section Ⅲ infiltration-retention pond
Section Ⅲ
Section Ⅳ
Section Ⅳ breathable wetland Section Ⅴ
Cinnamomum Ailanthus Amorpha Magnolia Spirodela Alternanthera Phragmites
Shrub Grass Water Plants
Agave
Pittosporum
Citrus
Vinca
Lonicera
Cosmos Glandularia Abelmoschus Tagetes Mirabilis
Section Ⅴ landfill greenspace
The step-by-step greening planting cycle is combined with farming and recycling skills of the locals, so that people of different skills, different ages, and different cultural levels can find suitable jobs in the local area and re-establish the connection with the land. The integration of classification, dismantling, reproduction, and logistics is a three-dimensional sustainable economic structure combining soil purification, production, and repurification cycles.
Brassica
Hyperaccumulation
Resistance plant
Ceratophyllum Vallisneria Scirpus
melt for water
landfill treatment resistance tree
take to factory
gather hyperaccumulation plants hyperaccumulation grass
resistance shrub
resistance shrub
resistance grass
Hyperaccumulation planting cycle as a local business
hyperaccumulation resistance grass grass
microbial putrification
hyperaccumulation water plants
Water treatment and landfills provide new public space for residences
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03 Activities in CBD Taking Qingdao Excellence World Financial Center as an example, this case focuses on the impact of high-rise wind brought by high-rise buildings. It intends to provide effective and high-quality outdoor space for the region through the control and coordination of landscape units. Combined with the theory and practical methods of Landscape Urbanism, this case uses the site as a sample of solutions to the noise problem of urban parks and open spaces, and conducts prototype study and design of the universal strategy for such problems.
Location: Qingdao, China Date: 2020.06-2020.07 Typology: prototype design Scale: 4 ha Individual Work
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INTRODUCTION: Urban High-Rise Wind Problem Arraise with Buildings' Type Development
Traditional Chinese Courtyard Buildings
Western characteristicss affect
the "tube building" Originated from the Soviet Khrushchev Building
Soviet Union characteristics affect
Initial market operate Socialism style
High-Rise Buildings
Small High-Rise Residential Buildings
Marture market operate
Chinses style
Modern style
Timeline
Building, Wind, Ground, People
Downsurge wind
Distributary wind
Normal wind speed
Strong wind through the opening
wind level
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Site Analysis
Climate Analysis
Qingdao is a coastal city in eastern China. Due to the influence of land and sea winds and subtropical monsoons, the strong wind season is from January to May every year, with wind speeds of 5-10 meters per second. However, the city temperature often warms up in March and is suitable for outdoor use. Activities, which means that proper shelter and guidance of the wind can extend the service time of outdoor recreational venues and attract more people to outdoor activities.
wasted time for outdoor activities outdoor activities temperature permission range
Wind speed range
average wind speed per month (m/s)
< 1.0 m/s average temperature per month (℃) 1.0 ~5.0 m/s
Shandong
Qingdao
Apartments: 20
Uncomfortable, action affected
Wind Distribution Analysis Overall Footprint: 439850.46m2 Floor space: 29941.48m2 FAR: 11 Office building: 80000m2
In the field unitized wind measurement process of the site, it can be found that the wind on the site unit module changes greatly. The wind speed at the entrance of the street is extremely high, which is much higher than that of the weather statistics of the day. Wind Rose
Acumulated Wind Speed (M/S) wind degree
Supermarkets: 3 Restaurant & Cafes: 20 Bus stops: 7
5.0 ~10.0 m/s
wind permission range
CBD area
Landuse Analysis
Hotels:19
Human feeling comfort
can't feel the wind
≥5 m/s outdoor activities ≥6℃ outdoor activities
China
Relationship between Human Comfort and Wind Speed
Banks: 9
Daily Activities Analysis Due to the large number of high-rise buildings, the staff and guests form a huge flow of people. At the same time, due to commercial activities, the time when the flow of people is relatively concentrated, and the types of activities and users are diverse. Timeline
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Material Analysis
In the research process of the wind resistance unit, the structure of the activity space is deconstructed. The overall activity space is divided into soft and hard materials.
he soft materials, plants, are analyzed and processed with geometric density, and the plant materials are reclassified. In terms of hard material, the airflow of the site is indirectly disturbed by the thermal effect of the paving materials.
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SECTION STRATEGY
Plants Wind Resistance Analysis
ornamental shrubs + hedge wind resistance rate
25%
megaphanecophyte + bushes wind resistance rate
75%
megaphanecophyte + ornamental shrubs + hedge wind resistance rate
50%
megaphanecophyte + ornamental shrubs + grass wind resistance rate
wind resistance
Plant List
75%
Terrain Association with Plant Comwmunities
Wind Resistance Rate
25%
45%
65%
85%
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Combine Sections And Material To Form Prototype 90%
WIND RESISTANCE RATE
60%
30%
Music Center
60%
30%
Chat Space wind
Farm Place
Waiting Area
semi-sanken
semi-sanken
semi-closed
semi-closed
open
Dance Square
open
semi-closed
semi-closed
open
open
Design Market
semi-sanken
semi-closed
open
Activity Plaza
semi-closed
open
Children Activity
semi-sanken
semi-closed
open
semi-closed
open
Theater
canopy density greening rate ornamental value activity density semi-sanken
semi-closed
open
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PROTOTYPE
Plan Generation
WIND RESISTANCE RATE
90% Music Center
60%
30%
wind degree Activity
Wind
+
Based on the wind rating, the function type and the proportion of users,the numer of different prototypes is obtained. Finally, the placement of different prototypes is determined according to the connectivity of the site and the surrounding environment and different traffic conditions.
Farm Place
Waiting Area
Masterplan Activity plaza
DUNHUA ROAD
Chat Space
30%
EXCELLENCE CENTURY CENTER TOWER TWO
LIANYUNGANG ROAD
60%
XUZHOU ROAD
LIQUN HUANRUN BUILDING
Theater
EXCELLENCE CENYURY CENTER TOWER ONE
Dance Square
OUTSTANDING DARONG CITY
NEW KAIDA BUILDING
Design Market
Children Activity plantation structure terrain level pavement material
EXCELLENCE CENTURY CENTER TOWER THREE
EXCELLENCE CENTURY CENTER TOWER FOUR
LONGCHENG ROAD 0M 5M 20M 30M
N
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Prototype Applied To The Site
day During day time, people can chat and communicate on the square without bothering by the wind.
A set of "wind abatement modulus" is generated through the planning of the plane activity unit and the wind blocking profile of different levels. These prototypes can be used in future designs. The classification and analysis of terrain, plants, and activity spaces can be continued, and the prototype design combination could be carried out, developed and expanded to get a set of site plots. The design schemes can be applied to sites with similar problems. Other urban sites with similar high-rise wind issues design can refer to the design ideas and plant selection strategies of this case.
night At night, lights on the trees and ground can luminate different commercial activities.
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04 Other works Flower House Bamboo Pavilion in Qianshan 07/2019 Field Trip to Buried Hill 'Summer Landscape Workshop for College Students on Traditional Chinese Villages Involved in modeling design of 'Flower House· Bamboo Pavilion' - Involved in construction drawing of bamboo structure and component - Involved in on-site construction
Pear Garden Garbage Recycle Station Location:Qianshan, Zhejiang,China Typology: construction design Scale: 20 ㎡ Team Work
07/2019 - 08/2019 UIA-CBC Construction Workshop SECOND PRIZE Beijing Forestry University x Chiba University
Location:Siyang,Jiangsu,China Typology: construction design Scale: 60 ㎡ Team Work
- Involved in concepts, modeling and refinement of 'Liyuan Garbage Recycle Station' - Involved in on-site construction
From the three design strategies of reconstructing the site characteristics, and to solve the site problems and stimulate the site vitality, the scheme of Liyuan waste recycling station introduced new waste classification and treatment methods, odor removal wind pressure system and other technologies to meet the design requirements.
Construction Process
This design tried to create a pubulic structure in the village square. To let this pavilion can be built locally, we use local bamboo materials and local building tecnique.
Chimney Effect
Site Photos
According to the chimney effect, a passive wind pressure system is set up to realize the indoor air exchange.
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Lighting the Barbican Center the Morning Duration:2019 summer Type: device design
Duration:2019 fall Type: watercolor creation
landscape sketch in the Summer Palace the Flow
Duration:2018 fall Type: watercolor
Duration:2019 spring Type: waterfront architecture design
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Xinge Zhang 2018-2020 Application for UCL MLA Program zxgbfu@outlook.com B. Engineer, Beijing Forestry University