WANG SIQI
Apply for Master of Landscape Architecture of University of Hong Kong Application No.1101116595 Southeast University 2013—2018 Selected Works
TABLE OF CONTENTS
COURSEWORK 01 BACK TO 2000 2017 Summer Studio_Individual Work
Remind the menory Reproduce the history Rebuild the organic balance with nature Reform the interaction with space
02 BACK TO NATURE SEU 2017 Spring Design Studio_Team Work
03 BACK TO THE RIVER 2017 Summer Studio_Individual Work
RESEARCH PROJECT 01 DIGITAL DESIGN OF SIMULATING WATERSCAPE Student Research Training Program_Team Work_2016
OTHER WORKS
CV
COURSEWORK
01 BACK TO 2000 [Individual Work] Topic: Brownfield Transformation Credit: Year 5 Project Location: Suzhou,China Date: 09/2017 Scale: 95.6ha Instructor: Hongfei Ji
1980s mining stones are the main raw material for cement production in Suzhou. Due to the exploitation of mineral resources, a variety of mountains around Taihu are excavated from sharp to flat, from flat to concave. This mine belongs to one of them. In 2004, the mining work stopped. Cement and steel factories around the area were abolished together, industrial waste materials scattered throughout the site while the paths left behind by mining were still clearly visible. Mining industry processes make the mine showing a complex topography of cliffs, scarps, grooves and platforms. This project aims to retain the flow of quarrying industry, make use of the existing materials in the site to rebuild the terrain, and rehabilitate the site into a natural park with industrial memorial value. I study the mining process and abstract the extraction of historical languages into spatial languages, reprocessing and utilizing discarded materials from the site, reviving the "Industrial Streamlines" with landscape languages to achieve industrial ruins protection, excursion experience, science education and ecological restoration effect.
HISTORY LEGANCY OF INDUSTRIAL PRODUCTION: ABANDONED QUARRIES & INDUSTRIAL WASTE
POTENTIAL OF ABANDONED QUARRIES
In the year 1980, China’s industrial development was at its greatest proportion. A variety of mountains around Taihu were excavated for mining tones.
RAPID GROWTH OF ABANDONED QUARRIES
RECYCLING OF INDUSTRIAL SOLID WASTES
The growth of abandoned mines and the reused mines shows a contradictory trend.
The recycle rate of industrial waste is far below its productivity.
METERIALS AROUND THE SITE
Iron
Abandoned quarries Existing quarries Relative industies
TIME LINE At present, the pit is filled with water and the industrial marks have been completely covered up. Time back to 2000, soon after the pit stopped mining , the surrounding ecological environment was seriously damaged, but gradually began to recover. The traces of the quarry were also clearly visible, a large number of industrial materials were thrown around the site and workers moved away from Yuan Shan village. The era of big industrial development came to an end.
Pipe
Steel
Stone piles
Stone
Concert
Cement
CONCEPT
CONCEPT
PROGRAM STUDY
I hope to rejuvenate the site with minimal intervention. Retain the flow of quarrying industry, make use of the existing materials in the site to rebuild terrain and rehabilitate the site into a natural park with industrial memorial value. 1. Dig OPTIONAL PROCESS
Educate Science Lecture of mine Simulation of mine Mining photography exhibition
2. Strip off Abandoned Mines
3.Reappear
4.Pick
Quarry
Factory
Barren Land
View 6.Refine
Reuse of onsite resources
Route
Mine Marks
Factory Waste
Factory Site
Lawn Recovery
Regenerate
Recycle
Transform
Reuse
Reproduce
Road
Interpretation History
Activity places
Meterial
New Function
Experience the mine history of the site
Give the old marks a new label
Popular Science Education
Site spirit
CULTURE Interpretation Sustainability of industrial landscape
Reproduce the moment of explode Reproduce the moment of histoty Site Meterials
5.Crush
Revival of ainccessible areas
HISTORY
Experience
Mine site park Experience the quarrying flow through space construction and put the abandoned site into new functions
Forest
Overlooking the whole mine Views of Taihu Lake Views of the beside mine
FROM QUARRYING FLOW TO SPACE
Procedures
A
B
C
Dig the Mountain
D
Strip Off the Surface Strip off the surface of the mountain and revel the rock
E
Explode
Pick the Stones
Make the rock brust into pieces of stones
Subdivide the stones and drop the inpurity
F
Crush the stones
Refine
Use machine to subdivide the stones again
Classify the processed stones according to their size
Space Language
Form Language
Abstract
Open the way to provide spaces for mining work
Meterial Language
SPECIALIZATION
PROCEDURE
A1
A2
B1
B2
Retaining walls / Space appears
strip off the surface reveal the rock
A1
B1
Experience from rusty steel retaining wall, stone tiles retaining wall to bare rocks
A2
Museum stands on the cliff, surrounded by original rocks, folded steel roof creates sharp atmosphere
Experience from rusty steel retaining wall, stone tiles retaining wall to bare rocks
B2
Walking through the tunnel, feel the texture of rock when light radiates indoor
C1
C2
Moment of explode/Moment of the history
C1
Stones scattered on the roof, reflected in the water, people go through from the middle of the space
C2
Use waste water pipe to simulate mountain shape, through recalling the mountain to reflect the history
D1
D2
Stone cage wall/ Single stone array
D1
E1
shadows of stone/ Thick steel path
E1
Different stone cage wall placed different sizes of stones
D2
Single stone on the water’s edge for people to lay or sit or play with
E2
F1
F2
Delicate stones on the ground/ Concrete flower bed
F1
The gabion wall casts shadows of stone
E2
People walk through the delicate stones on the ground
F2
Thick steel inserted in the soil and cut grass
Concrete flower bed lead people to the end of the exceperience
MASTER PLAN SECTION
2
Entrance
5
1
F2
Section A-A
Section B-B
Museum
Pipe Mountain
F1 Section C-C Platform
E2 C1 E1
Section D-D
3
D2 1
B2 Explode Experience
B1 A2
D1
Section E-E
C2
1
Trail-Crush
A1 Section F-F
Slpoe with Stones
4 Rest Platform
25
50
100
200
1 2 3 4 5
Entrance Wharf Wilderness landscape Landscape reconstruction of cement plant ruins Mine ecological sightseeing
Section G-G
SPACE SEQUENCE Museum exit are down stairs conformed to the terrain, covered with rust steel plate, the distance between them gradually larger, people experience the process of Strip off B1 (Strip off the surface and revel the rock
Entrance
A1 A1
A2
A1
Entrance shows a lush landscape. Here we can not see the quarry, the venue sign made by site materials guides people into the park Walking through a winding path than we can see a picture of the quarry in a short time Keep walking, On both sides of the road are high steel retaining walls and cliff, prosperous trees grow behind the walls Space here is deep and narrow
A2
B1
Gradually walking into the interior of the cliff, feel the cliffs at close distance Than get to the interior—Pit Museum. It was embed into the cliff, also the highest point, we can overlooking the entire pit
Entrance
C1 G2 Retaining wall appears, and the different size of the stones pressed on the retaining wall
F2 F1 E2 E1
Ground scattered with differentsized stones. Roof is made of glass with stones around the keel. Sunlight projecting through them to the interior. Mirror walls reflect the stones and light
Space becomes wider, the upward platforms are available for rest and enjoy the view. The two mines and the distant Taihu can be seen here at the same time.
There is a terrace in front of the structure for a rest and scenery. Seats there are made of stone cage wall and rust steel plate,marked with the size of the stones
D1
Reproduce the monment of of explode
G1
Cross over the water, a structure made of pipes can be seen in the distance. It was intended to reproduce the monment of the site history, the scene of the forest before mining
Sight becomes more delicate, we see the cement boards, gravels and the plant, and people stay here and play in them
C2
E2
During the itinerary, people will feel the space changes from obliterate to rough to delicate according to the procedure. It will give them a deep industry experience.
C1
D1 C2
Rusty steel plates are embeded into the rock, here shows a barren scene with scattered trees and weeds left around
Walking through the pipes, experience the history of Yuan mountain
This design specialize the quarrying flow with the reuse of site materials and remodel of mining ruins.
They bring the feeling of crush
E1
High and low squirrel cage walls guide people walk forward, sun shines through the stone gaps
I regarded it as a model about the interpretation of the sustainability of industrial landscape. How to treat and develop the spirit of place, it is also an educational landscape.
TWO ARCHITECTURES
PIT MUSEUM The architecture is embed into the cliff. Tourists go through a long cave path to get here. The pit museum hold regular exhibitions about mine to remind people what happened here thirty years ago.
EXPERIENCE HALL It is located near the cliff to make people have the feeling of oppression. Here Stones distribute on the glass roof and sunlight will pass through the gaps. The exhibition hall is made up by four indoor spaces that simulate the moment of explode.
02 BACK TO NATURE [Team Work]
Hight 31.3
Hight 68.3
Hight 113.2
Hight 34.2
Slope 15-20
Slope 20-24
Slope 20-24
Slope Slope 7-11 20-24
Aspect East
Aspect North-east
Aspect Aspect Aspect North-west West North-west
Hight 42.1
Hight 43.7
Hight 127.2
Hight 57.7
Slope 11-15
Slope 20-24
Slope 24-30
Aspect North-west
Aspect Aspect North-west South
Hight 39.7
Hight 42
Slope 0-3.2
Slope 0-3.2
Aspect South
Aspect North
Topic: Landscape planning Credit: Year 5 Project Location: Nanjing,China Date: 09/2017 Scale: 500ha Instructor: Cheng Yuning
Niushou Mountain Located in Nanjing, Jiangsu province. It is in a transition zone of forest and city, with numerous surrounding parks, cultural and natural resources. Early 21st century, due to unreasonable development and construction, a large number of vegetation was destroyed, natural resources were abandoned. The project mainly uses GIS analysis tools to deal with complex terrain relations and restore natural ecology so as to achieve the balance between ecology, construction and people. We selected seven basic factors such as slope, vegetation and hydrology to analyze the ecological sensibility and the suitability of construction. Niushou Mountain is divided into 4 zones. Flower Park, Road of Dhyana, Secluded Residences and Meditation Community. These 4 zones provide tourists with open green spaces and various activities. At the same time minimize the damage of construction and balance the proportion of human suitability and ecology.
Mapping the site research
RESOURCES AROUND THE SITE
CONCEPT: ECO-CULTURAL TOURIST ARER Before the Anti-Japenese War, Niushou Mountain used to be a forest of good ecological environment and historical sites. We hope to rebuild the organic balance with nature and appear the scenic of Niushou Mountain.
ORIENTATION
Heritage Park Heritage Park
Wetland park Forest park River park
Sculpture Park Natural Route
+
Cultural Route
ECO-RESOURCES
Eco-cultural Tourist Area
+
Construction 18%
Waste Land 14% Recreation
8%
Protection
60%
+
CULTURAL RESOURCES
TEMPLE HERITAGE CEMETERY PARK ARCHITECTURE
SITE BUDDHIST CEMETERY MILITARY SITE LOCATION
TECHNICAL ROUTE PROPOSED AREAS
Cultural Resources
Landscape Program
Natural Resources
Ecological Sensitivity
Host Planning
GIS ANALYSIS
Vegetation Soil Hydrology Sight View
SUITABILITY
Construction Suitability Land Use Classification
Project Node PLANNING
City Park
Master Plan
Zoning Plan
Heritage Landscape
Eco-Protection Stragety
Natural Landscape Cultural Corridor
SITE ANALYSIS WITH GIS__ FROM FACTOR TO PLANING FACTOR
EVALUATION TARGET
ANALYSIS
SUITABILITY
PlANNING
•Site research •Confirm Seven basic factors •Calculate and grading •Combine the basic factors and get the secondary factors
•Comfirm the factor proportion by Experts Grading Method •Composite secondary factors and get the final evaluation factor •Remove the most sensitive area
•Combine ecological sensitivity with slope aspect, slope gradient and hydrology to evaluate wild areas
•Divide wild areas into Forest, Lawn, Wetland •Divide recreation areas into Farmland and Construction. •Preserve cemetery.
•Divide the land typ into Wild Areas, PassiveAreas and Active Areas. •Caculate specific value
_6X
Extremely Sensitive Sensitive Weak
•Combine construction suitability with slope aspect, slope gradient and hydrology to evaluate recreation areas
Extremely Sensitive Sensitive Weak
North East,West South
FOREST
VEGETATION
_2.7X _4X
Extremely Sensitive Sensitive Weak
LAWN
SLOPE ASPECT >15% 5%-15% 5%
TEROGRAPFY
_2.7X _4X
Good General Poor
ECOLOGICAL SENSITIVITY Topography 26.83% Hydrology 8.59% Vegetation 60.45%
•Remove extremely sensitive areas •Remove the high pressure corridor
TRANSPORTATION
_.8X
SLOPE GRADIENT
Present Construction 4.14%
Poor General Good
WETLAND
<10m 10-50m >50m
NATURE/PROPOSAL
Suitable for Construction Able to Construction Unsuitable for Construction
Construction
8%
FARMLAND
HYDROLOGY
ENVIRONMENT
_.4X
CONSTRUCTION
Developing Land 5% Recreation
16%
Protection
71%
CEMETERY
Protected Areas Undeveloped Areas Build-up Areas Water Senic Line Senic Spot
ROUTE SELECTION •Integrated cost generation Select Slope, Ecological Sensitivity and Construction Suitability as cost factor.
PRESENT CONSTRUCTION
_2.8X
CONSTRUCTION SUITABILITY
•Select senic spot •Generate optimal route
Topography 40.61%
PROGRAM
Hydrology 16.92% Transportation 7.80%
First Class Road Second Class Road
Land Use Type 25.14%
8%
CONSTRUCTION TEMPORARY SHELTER PRIVATE FARMLAND CEMETAERY
350,785 105,680 30,000 215,105
5%
WASTE LAND
189,560
Environment 9.52%
SLOPE
_.9X
16% RECREATION SQUARE ROAD ARCHITECTURE SWAMP BROOK
<10m 10-50m >50m
_1.7X
71% PROTECTION
HYDROLOGY
COST GRID
ROUTINE
ACRES
RESERVIOR ANGIOSPERM GYMNOSPERM
697,263 395,433 70,000 24,000 195,415 12,415 3518,940 46,057 2,188,930 1,283,953
OPERATIONAL PHASING
MASTER PLAN 2050 PROPOSED
The whole planning process of the site divides into four stages. All the operations are based on Gis analysis that can ensure the least interference to the site.
Existing Condition
Initial Operations
Phase 2 Operations
2020
2050 A
_Architecture
FLOWERInsfrastructure TOWN
Landscape: Activities:
B
The area provides visitors with a blooming plant landscape and related activities.
Landscape:
ROAD OF DHYANA
The area provides people with a path to the Buddhist temple.
Landscape: Activities:
C Demolish isolated villages
Build main nodes
Increase distributing center
Increase activity sites
SECLUDED RESIDENCES
The area provides people with residential convalescence and small scale natural landscape .
Landscape: Activities:
_Road
D
MEDITATION COMMUNITY
The area provides people with a place of meditation and vegetation protection.
Landscape: Activities:
A Retain part of the existing roads
Building main roads
Build new perticipatory boardwalks
Completed road systeem
_Vegetation
C
Deforest poor plants Plant protective forest
Restore native plants Seed new local plants
wasteland changes into wetland and grassland
B
Miantance
_Hydrology D
Cancel scattered waters
Wetland restoration Two main hydrographic net
North wasteland changs into wetland
Plant artificial aquatic plants Balance the hydrographic net
_Composite
0.5
1
2 km
CREATURES OF NIUSHOU MOUNTAIN CATALOGUE OF LOCAL VEGETATION ECOLOGICAL RESTORATION/ ARBORS
Tilia miqueliana Buddhist trees
Ginkgo biloba
Acacia farnesiana
Taxodium distichum (L.) Rich
ECOLOGICAL RESTORATION/ SHRUBS
Cyclobalanopsis Salix matsudana glauca
Liquidambar formosana Hance
Celtis sinensis Pers
Michelia figo
Osmanthus fragrans
Camellia japonica L
Chimonanthus Elaeocarpus praecox decipiens Hemsl
ECOLOGICAL RESTORATION/ BAMBOOS
ECOLOGICAL RESTORATION/ HERBS
Gardenia jasminoides
Lagerstroemia Pinus parviflora Photinia Swida alba Opiz indica L serrulata Lindl
Bellis perennis L
Liriope muscari cv.Variegata
Salvia Rhododendron farinaceaBenth simsii Planch
Medicago sativa L
Ophiopogon japonicus
Paeonia Phyllostachys lactiflora Pall heteroclada Oliver
Pleioblastus amarus
Phyllostachys aureosulcata ’Spectabilis’
Nandina domestica
Phyllostachys nigra
Bambusa multiplex
Phyllostachys bambussoides
Chimono bambusa quadrangularis
Bambusa multiplex
Phyllostachys Viridis
Phyllostachys heteroclada Oliver
CATALOGUE OF LOCAL ANIMAL FOREST
LAWN
RIVER
WETLAND
SKY
BIRD VIEW& WATER VIEW
3.5m Rising Season Water Depth
rising season water depth 3.5m
2m
normal season water depth 2m
Normal Season Water Depth
0.5m Dry Season Water Depth
dry season water depth 0.5m
03 TO THE RIVER [Individual Work] Topic: Waterfront landscape Credit: Year 5 Project Location: Shanghai, China Date: 11/2017 Scale: 7ha Instructor: Hongpei Ji
Sewage discharged directly
This design aims to explore the solution of the contradictions between the green spaces around the Huangpu River and their surrounding environment, and how to deal with the relationship between water and people. The site located under the Yangpu Bridge and the region was originally for industrial land, surrounded by a large number of factories, workers lived in nearby shantytowns. Recent years, factories have been demolished gradually, but shantytowns still exist. These residential areas have low rates of green space, limited space for activities and poor living conditions. Most residents there are the elderly and children, they have an urgent need for open space. In addition, sewage can not be separated in shantytowns due to policy. A large number of daily sewage directly discharged into the Huangpu River, Huangpu River faces serious sewage problems. In order to meet the residents' requirement and alleviate the pollution of sewage to the Huangpu River at the same time, a two-stage systeem contains wetland system and activity function are introduced to ease the current situation in the site and activate the activities of Puxi.
Cramped living space
From Concept to Design Form
MAPPING THE WATERFRONT a sh ng Ta ad Ro
u gw Nin
Wetland
University
u izho
ad Ro
Me
oad ng R
ad Ro
Road
Pinglia
ng gya uan Sh
e ridg
hang
Dunhua Road
c Long
B gpu Yan
Activity
d Roa
X uc han oad gR
City Park
Axis Extension
Thematic Community
R
Commercial Centre
VE
PU
RI
G
AN
Longitudinal Connection
U
H
Commercial Centre
?
d
oa
Pi
Yangshupu
gR
an
li ng
SITE
YA N
Road
GP
U
Lateral Connection BR
ID
GE
In order to meet residents' requirement of activity space and improve the situation of sewage discharge at the same time, I operate the site into two layers.
Museum
Commercial Centre
Shanty House
Final Form
Neighbourhood Public Space Recreation Program Along HUANGPU River
Riverside Square
One is a structure link the surrounding roads and residential quarters, another is a wetland for sewage purification.
Wetland System
Activity Space
SITE ISSUES
u gp
r
ve
Ri
an
Hu
u gp
r
ve
Ri
an
Hu
r
ve
Ri
an
Hu
u gp
r
ve
Ri
an
Hu
Existing Connection
Factory
Isolated Zone
Pollution Source Sewer Network
Sewage
u gp
Lack of large scale public place
Recreation Activity
Needed accessibility
Neighbourhood Public Space
Disconnection
Business Zone
Isolation
Master Plan
5
10
20
30
A
B
C
D Half-underwater Architecture
Feel the water
YangPu Bridge
Footbridge Link the Residential Quarters
Riverside Cinema
Viewing Platform
Close to the Bridge
Basketball Court
Exercise with friends Wharf
Viewing Platform
Take a boat
Viewing Platform
Rest and view
Grassy Slope
E
SEWAGE PURIFICATION PROCESS
Sewage
1.Sediment Basin
2.Surface-flow Wetland
3.Sub-flow Wetland
4.Wild Wetland
Pipe
Phase 1
Phase 2
Phase 3
Sewage from the shantytown discharged directly to the Huangpu River.
The main part of sewage purification are the surface-flow wetland and sub-flow wetland. Specific terrain operation make the wetland meet the purification and activity function at the same time.
Purify the water again.
A forebasin succeed by a weir will be installed first to help mitigate flooding and sediment deposition.
Surface-flow Wetland holds the typical runoff. Balance the relation of flood from Huangpu River and site activity. Sub-flow wetland is good at swage treatment, can relieve the position of swage to the Huangpu River.
Creat an isolation between the site and the Huangpu River.
Section of the whole process
BIRD VIEW OF THE WETLAND
HU
ANG
PU
RIV
ER
-END
RESEARCH PROJECT Student Research Training Program
01 Digital Design of Simulating Waterscape Study on Calculation Method of Waterscape [Team Work] Topic: Landscape Research Credit: Year 5 Project Location: Nanjing,China Date: 11/2016-Present Scale: 500ha Instructor: Yuan Yangyang
Waterscape is one of important contents of landscape planning and design.The design of waterscape which according to the regular of nature not only helps to incorporate artificial water landscape into the natural system, but also maintains the integrity and systematicness of regional water system. The introduction of the parameterization method makes the design process of quasi-natural water features more controllable and accurate. This project aims to explore the design method of natural waterscape by means of parametric technical methods. According to the dynamic association of water resources and waterscape construction, we draw support from the platform of ArcGIS and Grasshopper to carry on the research. We creat a digital model by constructing the logical relationship between input and output which can reflect the dynamic association of vertical, water morphology, water volume and engineering volume. Based on this digital model, we can adjust parameter saccording to the situation of the site environment and output the design using parametric model.
TECHNICAL ROUTE Study on water form Waterscape Case Study Construction of waterscape database Construction of morphological evaluation model
Study on site selection of dams Pour points
Dam location
Environment analyisis
Waterscape evaluation system Catchment simulation
Formation of waterscape
Study on water volume Catchment generation Pre-judgment of dam height
Study on underlying surface
NO
Precipitation analysis
MONOGRAPHICAL STUDY 1. Study on Site Selection of Waterscape
2. Study on Water Volume
3. Study on Water Form
GIS-Based Natural Precipitation Simulation
Morphological Evaluation Index
Natural precipitation
WATERSCAE SHORELINE FORM
Penetration
Runoff
0.23
Underlying surface
Shoreline Form 0.42
Types of Underlying Surface Runoff/ Reduction coefficient
0%
5%
Paddy field 60%
55%
Water Calculation Formula
Degree of Continuity
n
1
W=∑ i=1 ki·mi ·Ai·P·103 W: Available water volume k: Catchment surface runoff coefficients for the i-type land m: eduction factor for the i-type land A: Catchment area of the i-type land P: depth of average precipitation (1225.1mm)
Farmland 0%
5%
70%
45%
1
0.32
Spatial Form
0.32
0.41
Degree of Sinuosity 0.41
Degree of Openness 0.31
0.32
Degree of Fractal 1
0.81
Degree of Polymerization 0.31
0.31
Shoreline Development Index
Shape Rate
Compactness
Area
Fractal Dimensionl
The Longest Axis
Near Circle Rate
e1
e2
e3
e4
e5
e6
e7
Wetland
Construction
Morphological Data Statistics 35%
45%
36%
65%
Morphological Data Analysis
Grassland
REASON OF CHOICE Two points are located at a high level of runoff which ensures the demand for water supply.
65%
The Longest Axis
Fractal Dimensionl
Shoreline Development Index
Shape Rate
Near Circle Rate
Compactness
65%
Barren Land
The point of A and B have strong sense of enclosure and are easy to build dams. The surrounding contour of A is dense, and it is easy to form a waterscape with impact force. The terrain of B is relatively gentle, and it is easy to form larger water surface.
e1 e2 e3 e4 e5 e6 e7
52 53 54 55 56 57 58 59 60 61 62 63 64 65
39 40 41 42 43 44 45 46 47 48 49 50 51
26 27 28 29 30 31 32 33 34 35 36 37 38
13 14 15 16 17 18 19 20 21 22 23 24 25
1 2 3 4 5 6 7 8 9 10 11 12
Forest
PARAMETRIC MODEL CONSTRUCTION Logical Model of Waterscape Import Topographic Data
Import Dam Location
Extract Elevation Information
Adjust Dam Orientation
Digital Model of Waterscape
Catchment Simulation
Water Calculation Module
Simulation of Different Pour point
Different dam height—Water form
Surface Generation
Preliminary Water Form Dam Height
Adjust Terrain/ Dam Height
Earthwork Calculation Module Water Form Generation
①
②
Water Calculation Module
Dam shape—Water form
Monomer Water Surface Generation Hydrographic Net Generation
Earthwork Calculation Module
Dam Shape Generation
Parameter modification
Water Assessment and Feedback
Dam height
Horizontal slope
Vertial slope
Water
Earthwork volume
①
3.200
3.071
0.720
8.204
5.576
②
2.900
3.071
0.720
4.062
1.648
Preliminary Water Form and Surface Generation
Final Waterscape
Calculation Earthwork Terrain changes—Water form
Dam Form Feedback Dam Height/ Water 28m/ 261.310m³
Morphological Evaluation Module
Extract the Contour
26.8m/ 314.10m³
Morphological Evaluation Module ②
①
23.6m/ 325.44m³
③
Evaluation the Contour Contour Feedback
22m/ 469.50m³ Water Contour—Contour Evaluation
21m/ 480.04m³
19m/ 1202.24m³ Area
Perimeter
Longest axis
FD
D1
Fr
Cr
C
dA
①
335440 2760
800
1.027 1.097 0.523 0.553 0.667 167447
② ③
1.04e+6 4674
1403
1.024 1.060
5.48e+6 12870
3338
1.040 1.157 0.437 0.415 0.557 4.351e+6
16.8m/ 2261.99m³
0.514 0.583 0.655 532850
16.45m/ 3915.71m³ 23.6m/ 325.44m³
OTHER WORKS
Because of the small-scaled site, the handle of hills and water is gathering them as far as possible and process the space by compart ,impede and borrow the scenery. Meanwhile,we creat several far-reaching axis of vision to make that the garden big in small.
LANDSCAPE PATTERN
This design is a reconstruction of Cao Xueqin's spiritual home according to the interpretation of Dream of Red Mansions and the site status.
East side: The XU's Garden [Belong to the same style Strategy: Enhance contrast
Nanjing Presidential Garden was belong to Jiangning Imperial Silk Manufacturing House in Qing Dynasty, the place Cao Xueqin spent his childhood life. Descriptions about Grand View Garden in his book Dream of Red Mansions were Cao's menories of childhood home.
North side:Republic of China building [unsuitable connection relationship] Strategy:Step back
West side: Beside the Alley [Quiet]
Location:Nanjing,Nanjing Presidential Palace Site area: 300 ㎡ Time: 11/2016
SPACE IMAGE
CLASSICAL GARDEN DESIGN
SITE STATEMENT
01
1. 假山石洞
4. 百竿翠竹 數楹修舍
2. 清溪瀉雪 飞檐隐约
5. 得泉壹派 5. 繞階緣屋
3 此亭壓水而成 瀉泻于两峰之间
6. 穿花度柳 6. 水声潺潺
South side:Parking lot [noisy] Strategy:Pile of rockeries
BIRD VIEW
MASTER PLAN
TOUR SEQUENCE
02
03
BUILT PROJECT
Construction The whole process of construction lasts two months, here I record the process by photos.
04
HANDWORKS
ARCHITECTURE DESIGNS
Reconstruction of Residential Square
Temporary shelter
Chair Design
Wen Chuang Studio
Expo Center Building
Location: Yuanshenxiang, Gulou District, Nanjing Site area: 1200 ㎡ Time: 6/2017
Time: 3/2014
Time: 11/2017
Location: Niushou Mountain, Nanjing Site area: 1200 ㎡ Time: 6/2017
Location: Xuan Wu Lake, Nanjing Site area: 1500 ㎡ Time: 11/2016
Waterfront Restaurant
Hotel Design
Location: Nanjing, GuLin Park Site area: 350 ㎡ Time: 11/2015
Location: Nanjing, Qingliang Mountain Site area: 1800 ㎡ Time: 6/2015
1101116595
Landscape Architecture
THANK YOU WANG SIQI E: wangsiqi9498@gmail.com T: 86-18795999595 Southeast University , No.2 Xuanwu Districtre Nanjing , JiangSu Province , 210096