portfolio LANDSCAPE ARCHITECTURE
WANG YUXI Applicant for MLA LandscapeArchitecture of the University of London Student Number: 20132369
01
Memorial Water Purification System The Rebirth of Destruction Translating the site damaged texure to a commemorative purification system.
Inclusiveness in Landscape Architecture What is the landscape? There are multiple definitions of the concept of landscape in Gareth Doherty's "Is Landscape...?". Landscape can be architecture or ecology, technology or art. It may be history or our present life. Landscape is such an organism that can accommodate these opposites and unite them. The selected four projects in my portfolio started to explore this inclusiveness of the landscape.While Accommodating diverse populations and habitats,it is also necessary to fill the gaps caused between rebirth and destruction, nature and artificial, concrete and abstraction and aesthetic and technology.
02
Nurture the Nature The Nature of Artificial Inviting the diversity of life to abandoned structures.
03 The Concrete of Abstraction
Reshaping the Time The Concrete of Abstraction Introducing ancient people's perception of time to the terrain design.
04
Rain Garden for Traditional Residence
05
Other Work
The Aesthetics of Technology Designing a garden with traditional Chinese garden's beauty
The Rebirth of Destruction
The Aesthetics of Technology The Nature of Artificial
The Blindengarden & The healing garden design Research Paintings & Other paintings
01 Memorial Water Purification System The Rebirth of Destruction
SITE: Ganxian, Ganzhou, China AREA: 214 ha2/528.8 acre DATE: 10/2019 TYPE: Individual Work LABEL: Landform Design & Purification System Design
Background Info Rare earth is a general term for 17 kinds of lanthanide elements, scandium and yttrium in the chemical periodic table. Rare earth is called "gold" in industry. with other materials It can form new materials with different properties and varieties Ionic rare earth is the main form of rare earth in China. Most of ionic rare earth are heavy rare earth, which has higher value than solid rare earth. However, the extraction of rare earth in soil with ionic state must adopt a different chemical extraction method from that of mining solid mineral. The environmental problems caused by this method are extremely serious. Combined with the important position of ionic rare earth and the environmental damage caused by the unique mining method, I decided to reorganize the texture and shape of the site during the mining process, and transform it into a commemorative purification system.
Site Information & Inf luence on the Surrounding Environment
Evolution of Pollution Levels
Ganxian County, Ganzhou is an important area for rare earth mining. However, the chemical leaching of ion-based rare earth ores has seriously polluted the surrounding environment, affecting the health of downstream residents, tourism and agricultural development. After investigating the terrain, climate and other information of the site, I tried to solve the pollution problem of the site through making use of rainwater.
This site has undergone four stages of exploration, scope determination, mining, and abandonment within 15 years, and even experienced both mining and abandonment during 2015-2018. Crude mining methods, brutal extraction methods, enthusiastic pursuit of profits, and weak environmental protection consciousness have led to great trauma to this land, and the degree of pollution of the land has increased year by year.
.
Rare Earth Minging Location in China
2007
Climate Analysis
2009
2011
2015
Pollution degree 2018
High→Low
°C/Ml
76.24%
Mining ratio Abandoned ratio 5/50
51.36% 21.46%
100% 0%
Mining Process & Hazards
1 2 3 4 5 6 7 8 9 10 11 12
60%
0%
18.78%
The mining of ionic rare-earth ore can be roughly divided into three methods: heap leaching, pool leaching and in-situ leaching. Due to the requirements of the Environmental Protection Agency's policy, the mining method gradually moved from heap leaching to pool leaching and in-situ leaching.
Temperature Average rainfall in Ganzhou Average rainfall in China
Reduced Biodiversity
Ganzhou's rare earth mining accounts 60% of the China
Soil Acidification
Soil Erosion
Vegetation Degradation
Soil Eutrophication Heavy Metal Pollution
School Excavation
Community
In-situ leaching
Cyclic precipitation
(NH4)2SO4
Site Analysis Elevation
Slope
Catchment lines
Wind Direction
U
Factory processing
Waste residue Re(SO4)m/2
Th
NH4+ H+ NH + Rem+ 4
Ganzhou Railroad
Re: Rare earth 0 500 1000 1500 2000 m
Precipitation in leaching pond
Principle of ionic rare earth mining replacement (Carrier Minerals)·Rem+ +mNH4+ =(Carrier Minerals)·mNH4+ +Rem+
Ganzhou Railway Station
Tourist Attraction
Heap leaching
H+ H+
H+
+ NH4+H+NH4+H NH4+ Reference:Ding, J. (2017). Discussion on the advantages and disadvantages of ‘in-situ leaching‘ and ’heap leaching‘ of ion-based rare earth ores.
Program Deduction
Water Purification Process
Channel Generation
Dyke
NH 4 + ↑
Original flow system determined by topography and wind direction.
Raining
TN TP ↑ COD ↑
Flowing
PH PH<7 Waste residue Heavy metal
Upper layer Contaminated soil
In-situ leaching
Exploitation
Deduction of Rainwater Purification streamline
Building
Exploitation
Contaminated soil
Planting
Flowing
Flowing
Collecting
↓ COD ↓ Greensward NH 4 +↓ Medical stone NH 4 +↓ Sedimentation TN TP ↓ tank Decomposing
↓ ↓
PH↑
Tributary
Flow
Centralized treatment Impounding reservoir
The contact area is Increased between Deep pollution is transferred in the upstream water and land and purified in the downstream
PH ↑ Eco-island TN TP↓ COD↓
Planting
Sedimentation tank is set at the point Acid removal tank is set at the point where the secondary converge of the where two tributaries converge downstream water flow.
Main Catchment Point I
Main Catchment Point II
Location of Sedimentation Tank
Location of Acid Removal Tank
Clean soil
Absorbing Clean water
Low layer Contaminated soil Pollution
Prurfication
Extraction of Mining Process Texture
Long-root plants
Fallen leaves
Sparse →Dense
Step 1
Step 2
Step 3
Step 4 Achievement
Morphological Deduction Functional Area
Absorption of deep pollution
Direction
Long Root Plant
Raised Point
Short Root Plant
Terrain Generation
Variable Channel Width Unit Topography
Purification flow line of it extended
Planting
Step 1 Catchment Area
Catchment
Sedimentation Tank
Acid Removal Tank
Eco-island
1 Step
Provide walking path
Provide catchment & sedimentation area
Little Senario
1
Step 2 Sedimentation Area
2 7
Step
2
3 6 Provide water storage area
Provide biological purification site
Step 3 Industrial Acid Removal Area
Step 4 Ecological Island Purification Area
Absorb the deep underground pollutants
5 River
The width and density of the river channel are positively related to the pollution of the original site. (m) 35 30 25 20 15 10 5 0
1
2
3
4
Ste
p3
Step 4
Step
4
4
5
6
7
psc 14 12 10 8 6 4 2 0
Step 1
Step 2
Step 3
Step 4
Master Plan
Hand Work
Model
Based on the topography of the site and the trace of the iontyped rare earth mine, a commemorative purification system is built. After the previous derivation, I let the width and density of each flow in the system are positively correlated with the pollution degree of the original site.
Section
N
Consider the height of unit topography.
1 2 3
1
Depict the texture of the site.
4
5 6
2
10 9
1
7 2
Hydrodynamic Direction
Memorial Excavation Scar
1 2 1
3
2
4 6
5
3
0
20
100
200m
1. Catchment 2. Deep earth purification area 3. Sedimentation tank 4. Industrial Acid Removal Area 5. Wetland & Eco-Island 6. Viewing platform 7. Exhibition and control center 8. Suspension bridge 9. Parking lot 10. Entrance
Review the Broken Strata
4
3
8
3
6
5
Relive the Mountains of the Past
STEP 1 STEP 2 STEP 3 STEP 4
Details of Strategies
Details of Strategies (II)
It is the biological evolution of wetland plants that plays a role in this part of the ecological island. 3
The four purification processes can be divided into three categories based on the type of pollutions. rainwater channel to remove heavy metals, sedimentation tank to filter solid waste, and acid removal tank and ecological island to solve the residual ammonia nitrogen wastewater.
3
Silt Well
Sewage Pump
Water Puerfication
Rasier access to silt Seting sewage pumpFiltering device cleaning up and to form a silt removal reusing. system in the pool.
Acid Removal Tank
normal water level
2
2
(Chemial neutralization of limestone) Tap water from acid removal tank Debug pipeline
1 Purification Device
1
Schematic Plan of Rainwater Channel & Sedimentation Tank
Walking path: cabble pavement/ 15mm 1:3 cement/ 30mm C20 concrete/ 200mm crushed gravel/ 300mm packed soil
Detail Section 1-1 In this part rainwater is collected and initially purified by the plant and minerals.
Slope stabilization: nutritious soil/ 150mm crushed gravel/ 300mm packed soil Plants group(dry) Grass
Plants group(wet) Phragmites
Detail Section 2-2 Rainwater is further purified by means of designed channel flowing into the sedimentation tank at the junction.
Rain path alkaline cobbles/ ÎŚ 60-80mm thick sandy soil/ 300mm water-proof layer/ 50mm packed soil
Revetment: thick cabble/ 120mm 1:3 cements with cobbles/ C15 concrete pool wall/ 240mm water-proof layer/ 30mm 3:7 lime earth/ 150mm packed soil
Transporting to ecological island
Plan of Wetland & Eco-Island Area
The excessive concentration of acid would be removed by industrial way to adapt to the growth of downstream ecological island plants.
Water nymph
Sagittaria sagittifolia
Phragmites
Calamus
Cattail
Eichhornia crassipes
pond bottom: thick sandy soil /300mm waterproof layer /30mm thick medium sand leveling /50mm packed soil
Detail Section3-3 Wetland and eco-island planting
Aerial View Image After the previous separated exploration of the node structure, I finally combined them into a whole, showing the most representative purification elements in each stage. By connecting these nodes in series through the footpath, visitors can experience the purification process and the reappear of rare earth mining traces reflected by each step.
Ⅰ Ⅱ Ⅲ Ⅳ Ⅴ
Catchment Area Sedimentation Area Industrial Acid Removal Area Ecological Island Purification Area Visiting Center
Ⅴ
Ⅰ Ⅲ
Ⅳ
Ⅱ
02 Nurture the Nature The Nature of Artificial
SITE: Oregon City,Portland,American AREA: 16.2 ha2/41.5 acre DATE: 07/2019 TYPE: Individual Work LABEL: Post-Industrial Transformation & Purification System Design
Background Info Project introduction: Oregon is a state located in the Pacific coast of the United States. The temperate marine climate and the geographical location adjacent to the Cascade Mountains and the Pacific Ocean make the region rich in animal and plant resources. However, the intervention of human activities makes the original connection between natural blocks blocked. This is the case with the old factory complex at Willamette Falls, Oregon. The inorganic and hard structures of human beings are often the areas that creatures have to give way to. So I began to think about how to preserve the memory of the site, at the same time, show a landscape design of the integration and symbiosis of human abandoned structures and organic life bodies, create a habitat of precious species and reinvigorate the post-industrial landscape.
Original Industrial Matrix Mechanism of the Site
Animal Habitat Research
Site Building Pollutant Analysis
By simulating the topography of the area, this research explores the future habitat range and the eco-chain in Oregon so that species can be introduced into the site more reasonably. Sturgeon
Silver salmon
California sea lion
Storm petrel
Brown pelican
Trumpeter swan
Green heron
Western pond turtle
Tailed frog
American bullfro
Nutria
Racoon
Alligator lizard
Ring necked snake
Mountain king snake
Giant crab spider
Blue eyed darner dragonfly
Bee
Black swallowtail
Buffalo treehopper
California myotis bat
White tailed kite
Cottontail rabbit
Western gray squirrel
Marmot
Great horned owl
Leopard cat
Kit fox
A
Golden crowned kinglet
Snowy plover
Paper Mill Producing a large amount of organic matter, chlorine, AOX, etc.
Flour Mill A
COD and dust pollution during wheat cleaning and manufacturing
The site is isolated from living things due to terrain and factory construction.
JAN FEB MAR APR MAY JUN JUL AUG SEP OCT NOV DEC
Woolen Mill The pollutants produced in desizing, scouring, bleaching and dyeing mainly contain surfactants, auxiliaries, acids and bases.
We ultimately hope to guide aquatic and terrestrial animals into the site. Boilers Mill 20
Main building renewal range Secondary building update range Railway Main road Secondary road
50
Boiler combustion produces greenhouse gases, flowing ash, and water pollution
150M
Waterside
About thirty-two meters heigh Nest
About seven meters heigh Section A The dramatic height difference between the site and the river result in biological isolation problems on the site.
Stirring Sedimentation Tank When the sludge is treated in the sedimentation tank, the total phosphorus and nitrogen oxides exceed standard. COD PBTS
Cave
Bush
Burrow
m
Stone sea
Tree hole
DUST
Nest
Less land dependent organisms
More land dependent organisms
Less water dependent organisms
More water dependent organisms
Master plan
Site Transformation Strategy I studied the reconstruction mode of abandoned structures and discussed how to increase vegetation coverage and the diversity of tourist place while retaining site memory. Original building
Retaining, transforming and removing original structures provide a co-habitat for humanand local species. Fishway and ecological corridors are added to introduce terrestrial and aquatic organisms. In different factories, plants are introduced as a memorial, responding to the primary pollution in this area .
3
Building dismantling
5
Design Strategy
1
Building foundation preservation 4
Venue Flow & Functional Division 2
6
Mainstream line Secondary streamline
Building wall preservation
People area
7
10
Animal and people
8
Animal area
9 11
Building floor preservation
Building Type Basement
12
Wall 13
Floor
Section 1
Foundation Mass 15
Building foundation preservation
14
Section 2
16
Building mass preservation 5 10
25M
1 Entrance square 2 Rose garden 3 Fishway 4 Wool factory gallery 5 Bird Island 6 Hydrophilic platform 7 Central lawn 8 Wollen mill valley 9 Climbing corridor 10 Flour mill forest 11 Power plant viewing platform 12 Landscape bridge 13 Vertical Ecological Activity Center 14 Building atrium 15 Sedimentation Pool Oak Garden 16 Hydropower station viewing platform
Green Space Type
Valley area Building area Waterfront area
Site Ecological Strategy
Internal Ecology of Structures
Making use of the existing water reservoir, steel frame, pipeline of the factory and combining with the arrangement of plants create different relationships between human and animals,such as isolation, semi isolation and connection .
Height strategy
Species Introduction Strategy:Ecological Corridor Design River strategy
Plants Isolated Second road Lawn Main road
Waterfront strategy
Rest Seat Guardrail
Human entrance Animal entrance Pond Translucent Pipes Ventilation Pipes
COD
Tsuga heterophylla
Pinus ponderosa
Fraxinus latifolia
Acer circinatum
Crataegus rhipidophylla
PBTS
Pseudotsuga menziesii
Populus trichocarpa
Lonicera involucrata
Ribes rubrum
Rubus ursinus
DUST
Quercus garryana
Crataegus rhipidophylla
Rosa nutkana
Human path
Cornus sericea
Big size bird
Human path
Arctostaphylos
Middle size bird
Site terrain collects water to attract animals.
Small size bird
Bridge Isolated Moss can detect the environmental quality.
Animal path
Corridor analysis
Silos converted into ‘apartments ’suitable for various bird habitats.
Down space Main road
Bird space
Guardrail Railing
Owrth otrichum byellii
Reflecting noise
Isolated Semi isolation Connection
Low lying buildings, dark sunken areas provide homes for nocturnal animals.
Climbable Grid
Due to the height difference,the tall trees are planted to help form ecological patches.
Create a river channel to help the site build an ecological cycle.
Extending plants to the shore allows ecological flows from terrestrial to aquatic.w
Forming a barrier to avoid rain
Ecological corridors are mainly divided into two non-interfering flow lines. Animals can be seen in human path; Animals are attracted by open fields and water sources. What’s more,the walls on both sides can reflect cars and trains. Wide entrances and water can attract animals.
Non-degradable pollution such as sulphuric acid synthetic fibers in wool mills is commemorated by oleander etc. Rich vertical ecology helps small climbers survive
Plants in the courtyard can absorb dust.
Nocturnal animals are living in the lower floors of low-lying buildings,which can be observed through the observation mirrors transformed by some pipes.
The upper part of the building acts as a viewing platform for people to enjoy the waterfall view.
People and animals enter the site in two ways
The lower part of the building provides animals with soil packs and berry trees to survive . A large oak tree in the middle of the courtyard absorbs nitrogen and phosphorus. Passager under the tree can enjoy the scenery.
Industry Transformation Plant Reference: “Portland Plant List 2016”
Section 1-1
Vines enwind on the grid. There are soil-covered plants on the bulkhead inside the jar, providing for birds with food and air
Section 2-2
Species Introduction Strategy: Fishway Design
Human Activities
A: Trail and fishway section
The design is based on the two main kinds of migratory fish in the site: salmon and trout. Different water flow speed simulates their migratory environments.
At the same time of connecting biology and abandoned structures, various activities have been designed for human, such as seeing animals, nodes close to the water surface, relying on the magnificent natural landscape of Willamette falls, making it a business card to show the characteristics of Oregon.
1
2
3
Slow flow and rich vegetation help people understand fish migration.
B: Site height change and fishway section
1-1
2-2
Key plan
Fraxinus sect. Melioides
Cornus sericea Section B
Populus trichocarpa
Acer circinatum
Tsuga heterophylla
Oemleria cerasiformis
The height of the site and the horizontal plan give the condition to constructed through continuous slopes, simulating the height difference in nature.
Section A
Fishway Entrance Analysis
1.Shoals and small holes made of granite attract fish to enter.
2.Granite-based fish path provide fish with a suitable breeding environment.
Use the concrete and stone waste generated by the transformation to build the bird island for resting and foraging.At the same time, the shape of bird island makes the water flow in the entrance area slow down, which is conducive to attracting fish to enter.
3.Fish path made of construction waste helps ecological restoration.
5 2
15M
3-3
03 Reshaping the Time Concrete of Abstraction
SITE: Xian, Shanxi, China AREA: 0.8 ha2/1.9 acre DATE: 02/2019 TYPE: Group Work (Research,Analysis and Rendering) LABEL: Landform Design & Memorial Space Design
Background Info Nowadays, people only need to have watches and mobile phones, and we can easily understand the time, so we often ignore the existence of time in such a fast pace. However, if we return back to thousands of years ago, how do people perceive time? According to research for people in Xian, the Bell and Drum Tower has been used as a tool for recording and disseminating time for more than two thousand years. 'Xiâ&#x20AC;&#x2122;an Bell and Drum Tower' is the largest body of the Bell and Drum Tower. It is still located in Xiâ&#x20AC;&#x2122;an City now.Bell and Drum Tower is a memorial of time.
Disappearance of The Bell and Drum Sound
The Distribution of Bell Towers and Drum Towers The Ancient Way of Feeling Time
There are seven big bell and drum towers existing in some historic cities.
Ancient time,AD 618 - AD 907
Development, AD 907 - AD 1912
20th Century, AD 1912- AD 2000
Li Fang City of the Sound of Drum and Bell
Drum and Bell as a Time Spreader
Trees, Plaza and Vehicle Avenue
Now, After 2000
Starting from Tang Dynasty with 2000 years. [Bells and Drums rang 24 times, peple begin to work and study.] Shenyang Bell & Drum Tower With 800 Years Old
5:00 a.m.
24
24
Beijing Bell & Drum Tower With 2500 Years Old
Space Connection and Sound Visualization
7,9,11a.m.
No Sound, Bell Tower and Drum Tower are Isolated
Diagram Ⅰ : Space Connection Diagram Suzhou Bell & Drum Tower With 1500 Years Old
1,3, 5 p.m.
Central Tower Nanjing & Shanghai Bell&Drum Tower With 1500 Years Old Chengdu Bell&Drum Tower With 1500 Years Old
Fuzhou Bell&Drum Tower With 1000 Years Old
Attract
Grey Space
Connection
[Bells and Drums rang 24 times, peple begin to relax and sleep.]
7:00 p.m.
24
24
9:00 p.m.
11:00 p.m.
1:00 a.m.
3:00 a.m.
Diagram Ⅱ : Sound Visualization Diagram
Sound Lost
Translate
Sound Memorial
Site and Viewpoint Analysis Both towers bring tourists and form various commercial opportunities.
People Feeling Time through Shadow, Bell & Drum and Machine Drum Tower
Rational Times 5000BC
Time, Tanslated by Shadow Rational Times 2000BC 2000BC
Bell Tower
Modern Times Time, Tanslated by Bell & Drum 1000AD 1000AD
Time, Tanslated by Machine Now
The Site behind the Sunken square has the best view point.
Legend
Legend
Bell and Drum Tower
Bell and Drum Tower
Surrounding Buildings
Square & Commercial
Main Avenue & Metro
Sight Line & View point
Site Boundary
Pedestrian Flow
The Morphological Research of Bell and Drum's Sound Wave
Bell & Drum Visualization through Terrain
Using origami to reflect the relationship between loudness and time. Selecting the group with the most obvious contrast between light and shadow to generate the terrain.
Waveform Analysis Time → Length Loundness/sone
Bell Waveform
Loudness → Hight Hight/m
Loundness/sone
Reference Formula: Loudness=|A COS|(ωt+μ)
Height/m
N
Drum Waveform
Ⅰ The Landform of Drum Sound
Ⅱ The Landform of Drum & Bell
Ⅲ The Landform of Bell Sound
5 Time/s
Time/s
Length/m
Length/m
2
1
Morphological Analysis 6
Ⅰ
Ⅱ 8
7
3
Ⅲ 1
8 1
2
Legend 1 Best Viewpoint 2 Platform 3 Recreation Plaza 4 Bell Tower
5 Drum Tower 6 Main Road 7 Small Path 8 Pillars Line
0
5
10
15
20
25M
The Morphological Research of Bell and Drum's Sound Wave
Ancient and Modern Site Comparison Perspective
The terrain has the most Intense Light and Shadow The profile has a Variety of Up and Down The raised platform provides the Best View point
ND
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D
TH
R FD
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SL
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TIO
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Terrain Section
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ON
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L BE
A
TR
Ancient In ancient times, people heared the sound of bell and drum, and then began to work at sunrise and rest at sunset.
Modern Nowadays, at the end of work day, people go out of the subway and then go home undulating terrain.
04
Rain Garden for Traditional Residence Aesthetics of Technology
SITE: Hangzhou, Zhejiang, China AREA: 450 m2 Model:12.5 m2 DATE: 04/2018 Designďź&#x161;Individual Work Construction: Group Work LABEL: Rain Garden Design
Background Info Nowadays, rain gardens are becoming more and more common in various landscape projects, but the design based on pragmatism is often too rigorous and orderly. Maybe the he construction of rain garden can be combined with traditional Chinese gardens aesthetics. Therefore, the rain garden can be more ornamental and sightseeing, and the traditional Chinese garden can better meet the needs of contemporary cities.
Functional Zone
I devided the garden into four areas.
High Zhejiang,China
Old apartments
Serious seeper Weathers pipe
Low Concentric road network
GE ORA T S TER WA FORM T PLA
Regional Analysis & Current Condition The site is located in an old residential area on the edge of the city. The area still retains the appearance of traditional Chinese houses and the layout of settlements. But because of time, many pipes have weathered, aslo drainage has had a big problem. The rain garden is an effective way to solve urban drainage problems.I hope to integrate this concept into the old residential area design, giving the crowded residential area a space to move while solving the drainage problem.
The altitude difference brings the platform an open view point.
On rainy days, the water level can rise to the platform to save more water.
AY Y PI R E K ROC FORM T PLA
EST GR N I N OPE FORM T PLA
The setting of the rockery shows a more interesting path experience.
DEN R A NG RAI FORM T PLA Rainwater garden with multiple plants to purify rainwater layer by layer.
Summer recipitation U. ml/month
198ml per month
Located in the community centre
Canli Yuan The smallest chinese garden 140 ă&#x17D;Ą
Raising terrain to increase horizontal space
Increasing vertical design to rich visiting line
CITY CENTER OLD COMMUNITY FARMLAND
According to the type of the surrounding land used and the distance from the river,one type was chosen as the main area in this garden.
FOREST
Target location Surrounded by trees and accessible roads Roads Trees Pood
Opening Rest Platform Mainly
Rain falling garden The garden in the crowded old community 500 ă&#x17D;Ą
Raising and reducing terrain to increase horizontal space
Increasing vertical design to rich visiting line and experience
Rain Garden Platform Mainly
Water Storage Platform Mainly
One of the old communities in the province
Water Storage Platform Mainly
Using stone to extend tour path Crowded and mess
Rain Garden Platform Mainly
Using trees to extend tour path
Treating water edges to extend tour path
Rocket Play Platform Mainly
Water Storage Platform Mainly
Opening Rest Platform Mainly
Rain Water Management Analysis Old abandoned tiles from the surrounding site were used to create a porous paving and part of a retaining wall. The rainwater was filtered by the plants and collected into the ciphers to meet the irrigation needs of the garden itself.
Master Plan Pool Design Rainy Season Water Level
Nomal Water Level
Legend 1 Opening Rest Platform 2
Pool
3
Rain Garden Platform
4
Bridge
5
Pavilion
6
Water Storage
7
Rockery Playing Platform
8
Enterence
1 5
Original Plants
Plant Planing Autumn Foliage Plants Water Purificated Plants
3
The Rain Path
2
6
After Cleaning
4
Before Cleaning
Visual Hierarchy
7
Sight
View Point
8
4
Scaled Plants for the Mordel Replaced the Origional Plants
Construction
Real Size
Rain Garden
Build Terrain
Reinforcement
Model
pl um
Jan.
Feb.
May.
Apr.
May.
Jun.
Jul.
Aug.
Sep.
Oct.
Nov.
Planting Trees and Grass 03/15/2018
Waterproof the Pool 03/16/2018
Building Pavilion 03/25/2018
Cleaning 03/30/2018
le ap M a (b on sa i)
M ap
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bu m Ba
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W at
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St a
Pr iv
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Scaled Plants
Building Retaining Walls 03/11/2018
Decoration
Diging a Reservoir Start Time 03/17/2018
Ca m
nt di a
StartTime
03/04/2018
Diging out the Gradient 03/08/2018
Dec.
Real Plants
A
Leveling the Land
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Fl
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Comparison Between Real Size and 1:6 Model
Jan.
Feb.
May.
Apr.
May.
Jun.
Jul.
Aug.
Sep.
Oct.
Nov.
Dec.
Laying Floor 03/19/2018
Laying Stones 03/23/2018
Final Effect
In the garden residents can feel the changes of water rise and fall,as well as the overlaping of four seasons .
Other Work
Follow the Water Sound SITE: Hangzhou, Zhejiang, China AREA: 1636 m2 DATE: 12/2017 TYPE: Group Work LABEL: Blindengarden Design/Healing Garden Design
Small Sence & Effect Drawing Painting
Find the Simple Happiness SITE: Hangzhou, Zhejiang, China AREA: 619 m2 DATE: 12/2018 TYPE: Group Work LABEL: Pocket Park Design/Sunken Garden Design
Ⅰ
Floor Plan
Background Info In a land where a famous soldier in Song Dynasty once lived in, we built a sunken garden for the use of the surrounding townsfolk , in the hope that people would discover the peaceful and simple pleasures of the complex city.
390
1000
1810 2830
9100 1210
1210
920
200*300mm
300 600
Wood chip array arrangement
Metasequoia glyptostroboides Crown width2000mm
Each one more than the previous one Rotate 15 degrees
Transparent glass Interval 300 mm
20*1000mm
Frosted glass 150*100mm
Transparent glass 20*1000mm
Beam Pillar 125*2550*200mm 100*150mm Two wooden members are connected using prefabricated steel members
Bamboo forest Width 300mm
Rotatable prefabricated formwork Turn outside on a sunny day and turn indoors on a rainy day
Dougong's evolved landscape installation 800*600*300mm
Ground
2000
「归去」部分的景观植物多开白花,但大小花期各异,通 过安排使得 3~11 月均有花开。墙上攀爬着具有象征意义 名字的忍冬(金银花),花朵随着时间由白色逐渐变金。 白色芳香花朵与具有象征性的白色石鼓呼应,表现面向自 我的纯净场地。
Lo
Fa
Ro
A ca
P
在舞台周边仍然种植具有强烈生命
Fatsia japonica
China Starjasmine
Nandina domestica
Gardenia jasminoides Ellis
Metasequoia glyptostroboides
Diospyros kaki Thunb
Amygdalus persica
Usnea diffracta Vain
Metasequoia glyptostroboides
Metasequoia glyptostroboides
Kokedama
Pterocarya stenoptra
With the help of a variety of veranda and cascading water designs, people with visual impairment can navigate without obstacles. 以不起眼的小植物进行阵列造景,表现他
1210
Transparent film 8*8mm
Transparent glass 20*1000mm
1st
Bamboo
Through the construction of ecological plant tank, we studied the spatial relationship of plant layout.
1210
2790
2nd
1210
390
2500 1600
Roof Plan
1210
50
150
Ⅱ
Floor Plan Floor Plan
920
7880 3260
6030
2nd
440
Prefabricated roof Wood Elements 200*300mm Transparent film 8*8mm
1020
1st
2nd
700
1st
1000
570
Model
1350
570
Background Info After a series of investigations on Chinese classical gardens, we found that the forms of Chinese corridors and Bridges are very suitable for the development of barrier-free landscape appreciated by the present city. Therefore, we extracted the inseparable relationship between corridors, bridges and water in the gardens to create a kind of garden for the blind that can be visited and accommodated.
Ⅱ
Ⅰ
Roof Plan
150 200 200
05
Research Paintings
Translated Painting 1100*560mm
Record Landscape
Painting Translation
SITE: Hangzhou, Zhejiang, China DATE: 04/2018 TYPE: Individual Work LABEL: Foundation Studio of Landscape Achitecture
DATE: 10/2017 TYPE: Individual Work LABEL: Spatial Interpretation
Starting with the training of the walking record of a real site, this studio discusses the professional observation and recording methods of landscape.Students experience the landscape elements such as slope, aspect, planting, drainage and surface material, and know how to describe it in professional "language".
Other Paintings Gouache
Experimental Ink Painting
Wood Block&Sketches 300*200mm
600*600mm
By Imitating and recreating the landscape paintings in the Five Dynasties and Ten States of acient China , this painting discusses how the spatial layout of the paintings can be applied to the landscape design. Imitated Painting 1100*560cm
400*600mm
300*300mm
150*150mm
210*297mm
300*300mm