PORTFOLIO OF SHU SUN LANDSCAPE ARCHITECHTURE BEIJING FORESTRY UNIVERSITY
LANDSCAPE ARCHITECTURE TEXAS A&M UNIVERSITY
PERSONA INFORMATION SHU SUN +1 979-402-9051 sunshu@tamu.edu
EDUCATION
| MLA | Texas A&M University | Landscape Architecture 2019.08-nowI | MLA | Beijing Forestry University | Landscape Architecture 2013.09-2015.06 | BLA | Beijing Forestry University | Landscape Architecture 2009.09-2013.06
PROFESSIONAL PRACTICE 2017.11-2018.12 | Project manager 2016.07-2017.11 | Planner 2015.07-2016.06 | Planner 2014.10-2015.05 | Inter 2013.10-2014.06 | Inter
SKILLS
| BJF Beijing Architectural landscape Planning and Design Co., Ltd. | UE Beijing Hemei Zhishang Urban Landscape Design Co., Ltd. | China Construction Engineering Design Group Corporational Limited | Beijing Bishuiruncheng Water Consulting Co., Ltd. | Beijing Atelier landTHING Design Research Center
Hand drafting / Auto CAD / Adobe Photoshop / Adobe Indesign / Adobe Illustrator / Sketchup / Lumion
TABLE OF CONTENTS
01-05
RESILIENCE AS ABUNDANCE, THRESHOLDS OF EXCHANGES
06-10
TRAVEL BETWEEN HISTORY AND MODERNITY
Solution For Flood In Venice
Xueye Lake Riparian Park 11-14
RUNNING AROUND PETALS, SWINMING IN THE RIVER Huailai Sports Park
15-17
18-22
RENEW DISTRICT, AWAKEN CULTURE Gulou Street Urban Design
SCENIC VIEWS FROM SWAN LAKE Rongcheng Landscape Design
23-25
OTHER WORKS Painting
01
RESILIENCE AS ABUNDANCE THRESHOLDS OF EXCHANGES SOLUTION FOR FLOOD IN VENICE Venice, Italy Urban Planning 77,691 ha 2019 Individual Design
THRESHOLD Barriers To Flood
EXCHANGE
Exchange Everything
ABUNDANCE
Create Abundant Resources
FLOOD ANALYSIS
RESILIENCE AS ABUNDANCE: THRESHOLDS OF EXCHANGE
RECORD
Lido Inlet
VENICE
Increasing Level of Tide SCENARIO
Tide level more Than 80 cm
Extreme
Tide level less Than 80 cm
High
Threshold
360cm
310cm
Intermediate-High Intermediate Intermediate-Low Malamocco Inlet
SHU SUN TAMU
260cm
Low
Ven e
tian
Lag
oon
*Threshold In Lagoon *Exchange All Things *Create Abundant Resources In Venice
210cm
Chioggia Inlet
Threshold
160cm 140cm 130cm
80cm 60cm
80cm
PROBLEM STATEMENT
Number of Days Flooded Annually
Venice suffers from floods frequently because of increasing sea levels and the sinking sea floor. The proposed solution is to isolate the lagoon and make part of it into a freshwater river.
Subsidentce 1930
Percentage of Venice flooded in accordance with tide level
Flooded Area with Sea Level Rising 1970
2002
4%
-
Tide Level 100 cm
Depth of Seabed
35%
Venice
-50~-40 m -40~-20 m -20~-10 m
Atriatic Sea
Tide Level 120 cm
-10~-5 m -5~-2m -2~-1.5m
90%
-1.5~-1 m -1~-0.8 m -0.8~-0.5m
The depth of seabed is decreasing.
-0.5~-0.2 m -0.2~0 m
Sea Level 200 cm 150 cm 100 cm 50 cm 0 cm
Tide Level 140 cm
In the worst scenario,most of Venice is flooded in 2040
02 EXSITING SOLUTION MOSE PROJECT
Salt-water Currently the MOSE project is used to protect Venice by rasing the gates to isolate the Lagoon temporarily with some limitations. However, the proposed solution offers better benefits than MOSE with less drawbacks.
Lido Inlet
Gates stay on the seabed and fall of water.
Problems with MOSE
Flooded 360 Cm sea level in 2100
Activated sea level: 110 cm Estimated time to construction: 19 years =5 Million euro Cost: EUR 5.4-10.4 billion
300cm maximum height MOSE protect
110 cm start to rise
Flooded 80cm-constant water line
When high tides are forecasted, air is pumped into the gates causing the gates to rise to the surface.
Malamocco Inlet
Gates Gates
Seabed
Chioggia Inlet
Gates
1966
1981
Air
Air
Great Flood Proposed MOSE
1994
Permit MOSE
2003
Start Construction
Air
2013
85% Completed
2020
Erosion
Height
Energy
Erosion and deteriotion Maxium height of tide of submarine gates cost is 300 cm 14 million euro to renew
Expect to be completed
Depth
Every time the gates operate, it would consume large amounts of energy
Inadequate depth costs another 20 million euro to let ships pass the gates
Energy
Depth
Produce 140 MW of electric energy per day
Using ship-lift. Transfer 12,000+ ton vessels.
PROPOSED SOLUTION WATER EXCHANGE Water Flow Direction Map
¡ PROPOSED
SOLUTION Close the Lagoon Making part of the Lagoon into a freshwater lake and keeping part of it a salt-marsh
Free Exchange
INDUSTRIAL AREA
ECOLOGICAL AND ECONOMIC BENEFITS
FishFarming
Water
Height
Provide freshwater for Fresh water area would Designated height of tide: 400 cm (2100) allow development of drinking, industry & fish-farming and agriculture uses agriculture.
VENICE
LEGEND Salt-water
come from sea
Free Exchange
Fresh-water
come from mainland
Fresh-water from closed
Fresh water
Salt water Barrier
lagoon to industrial area, agriculture and people drinking
Fresh-water Free Exchange
Fresh Water Resource
Agricultural Recurse Fishes, Crops
4m Electronic Energy Recurse Wind Energy, Tidal Energy
Salt-water Industrial area
ABUNDANCE
JUSTIFICATION OF DESIGN DECISION Adaptive Pathway Planning Wa In ters Ve he ne d to Calculate An nu The Highest Rainfall al Ra Amount in Highest Month inf all In Ju n.
The solution is to make the water flow meander in order to increase the length of flow and some reservoirs were also be added to keep excess precipitation.
Ve
nic
e
Ve
nic
e
Venice Lagoon Drainage Basin 1 Silone 2 Vela 3 Dese 4 Osellino Mainland Water Flow Analysis 5 Scolmatore 6 Lusore Average Monthly Rainfall 7 Naviglio Brenta 8 Taglio Nuovissimo 9 Lova JUN. 10 Montalbano 11 Morto 12 Cuori
DEM elevation 310m
Ma
inla
nd
Ve
Existing Water Flow
Wa te
nic
e
rF
low
Highest Rainfall is in June
Highest Amount Of Rainfall 202,275,180 m3 Amount Of Water Keeping by Closed Lagoon
112,731,598 m3 That means the closed lagoon alone is not enough to store the amount of water from the mainland. Strategies like longer flow line and detention pond should be implemented
0m
Slopes
Wa Dir ter F ec For Emergency Water tio low nA Release from na ly Reservoirs
Solutions
Ve
nic
e
sis
East Southeast South Southwest West Northwest North Northeast
Proposed Reservoirs
40%
Slo
pe
Ve
An
nic
aly
e
0%
sis
Pr o an pos d R ed es Wa erv te oir r Fl s ow
Existing Water Flow Proposed Water Flow
Ve
nic
Dir
ec
tio
n
e
Ve n
Agriculture Area and Wetland ice
03 MASTER PLAN
Adaptive Pathway Barrier Water Exchange WATER EXCHANGE
Tidal Barrages And Pump Station
Fresh water River
Fish Migration River
THRESHOLD
Barriers To Flood
Marshes and mudflats Barriers
Estuarine Part
Fish Migration river Front Dam
ADRIATIC SEA
Entrance Fish Pass The Dam Here
FISH EXCHANGE Wind Turbines
Ship Lift
Dam
CLOSED LAGOON
Passway Fish Pass The Dam Here
Hi
Transition Salty-fresh water Long Enough to Prevent Salt Penetration
Yeah! Soft Edge
Tidal Barrages and pump
Dam Embraces Fish-migration-ri
Tidal Barrages And Pump Station
Shiplists Let’s go to the sea!
Wind Turbines
EXCHANGE
Exchange Everything
Fish Migration River
Ship lift
SHIP EXCHANGE
Tidal Barrages And Pump Station
Tide Energy
ENERGY EXCHANGE
Ship Lift
ABUNDANCE
Create Abundant Resources
EXCHANGE STRATEGY FEASIBILITY
WATER, MATERIAL AND ENERGY EXCHANGE Exchange With tidal barrages, salt-water, sediments, planktons and nutrients could transfer from the Adriatic Sea to the Closed Lagoon. At the LEGEND Fresh-water same time, pumping stations transfer excess Salt-water fresh-water to the opposite side.
Free Exchange
nge
LEGEND
VENICE
Threshold Tidal Barrages and Pump Station
Fresh-water
Free Exchange
Salt-water Fresh-water
Free Exchange
Threshold
VENICE
Salt-water
Internal Water Management
Tidal Barrages Freeand Exchange Pump Station
Free Thriugh Exchange Exchange Treshold
Water
Free Exchange Free Exchange
Wind Turbines Wind energy
Pumping Station
Ship Fish Energy
Fresh-water
Salt-water Sediments Planktons
Pumping Station
Phase2-2200
3.6m-Predict Sea Level+High Tide 2.5m-Predict Sea Level in 2100
Phase3-2300
4.0m
Phase1-2100
Tidal Barrage 20.0m
Phase2-2200
Free Exchange
Nutrients
Tidal Barrage
Phase1-2100
Phase3-2300
Tidal Barage Tidal energy
Material
Fresh-water Salt-water
Exchange Thriugh Treshold Free Exchange
EXCHANGE
Mainland
Closed Lagoon
Barrier
Adriatic Sea
Fresh Water
ENERGY EXCHANGE The Tide And Currents Of The Lagoon Energy Exchange
Salt Water
Two-way Tidal Barrages
Tidal barrages and wind turbine generate electricity to supply power for pumping stations. These stations are responsible for transferring water between the lagoon and the Adriatic Sea
Two-way Tidal Barrages
As the tides rise and fall, so does the water level in the Lagoon. Electricity is generated on both Internal Water the incoming and outgoing tides.
Tidal Barrage EbbMarshes Generation Brackish
Tidal Barrage Flood Generation
(Protection of the Ecosystem)
Management
Pumping Station
Wind turbines
0 4 8
Tidal Barrages and Pump Station
12
Wind Turbines
16
Barriers
20
Pu
3.6m Sea Level+High Tide 2.5m Sea Level
4.0m
7.6m Sea Level+High Tide 6.0m Sea Level
Tide Barrage
20.0m
Mainland
Closed Lagoon Fresh Water
Phase1 Barrier
Wetland Brackish Water
04 The Mean Sea Level Rise scenarios of Veneto
DESIGN PHASING
Source: NOAA 1050cm 760cm
Mean Sea Level Rise (cm)
Three phases of barriers (4m, 8m, 11m) would be constructed at different elevations above the sea level. Between the barriers are brackish marshes and wetlands which could filter salt-water, weaken tides and provide shelter and food for a sustainable ecosystem.
360cm 310cm
Extreme
260cm
Intermediate-High
High Intermediate Intermediate-Low
210cm
Low
160cm 130cm
Tidal Barrage
Fish Migration River
Energy
Wind Turbines Wind energy
Pumping Station
80cm
Tide Fluctuation
2000
Fish
2050
2100
2200
Tidal Barage Tidal energy
Internal Water Management Fresh-water
Salt-water Sediments Planktons
Nutrients
Tidal Barrage Pumping Station 4.0m
3.6m-Predict Sea Level+High Tide 2.5m-Predict Sea Level in 2100
Tidal Barrage 20.0m
Mainland
Closed Lagoon
Barrier
Adriatic Sea
Fresh Water
Salt Water
2020
2030
2040
2100
Begin Construction
Complete Barrier Tidal Barrage Pumping Station
Complete Ship-lift Fish Migration River
Short-Term 4m
Brackish Marshes (Protection of the Ecosystem)
Internal Water Management
2200
2300
Mid-term 8m
Long-term 11m
Salt Marshes and Mudflats (Protection of the Ecosystem)
Pumping Station
11.0m
Pumping Station
3.6m Sea Level+High Tide 2.5m Sea Level
4.0m
7.6m Sea Level+High Tide 6.0m Sea Level
Closed Lagoon Fresh Water
10.5m Sea Level+High Tide 8.5m Sea Level
8.0m
Tide Barrage
Tide Barrage
Tide Barrage
40.0m
20.0m
Mainland
Pumping Station
Phase1 Barrier
Wetland
Phase2 Barrier
Brackish Water
55.0m
Wetland Brackish Water
Freshwater-Saltwater Transition Zone
Phase3 Barrier
Adriatic Sea Salt Water
2300
FISH EXCHANGE STRATEGY FEASIBILITY 4 Fish-Migration River
Marine life that uses FMR in Adriatic Sea
vBass Fish
European Eel
Great Green Goby
Sea-bream
ecnartnE VENICE
Mullet
Boyer’s Sand Melt
maD/yaW ssaP
Clam
VENICE
Entrance
The fish-migration-river allows diadromous fish to migrate between the Adriatic Sea and the closed lagoon while the long channel inside prevents salt water from entering the freshwater basin. Thus, some migratory fish species could keep their route between both sides.
Flounder Fish
Cuttlefish
traP enirautsE
VENICE
Site of Fish Migration River
Shrimp
Pass Way/Dam
Estuarine Part
Transition Salty-fresh water
Phase1-2100 FISH-MIGRATION-RIVER Phase2-2200 Phase3-2300
ADRIATIC SEA
CLOSED LAGOON
Estuarine Part Front Dam ADRIATIC SEA
2 Natural Part-Marine Side With bird islanfd and two sepaarate channels bottom: sand, rocks
3 ‘Coupure’
Always open and accessible 100m length 9m width canal 3m width verical slot 3-5m deep bottom: wrip wrap
6 Sluices
Always open and accessible Four gates, concrete, wooden doors, vertical slot
Entrance Fish Pass The Dam Here
1 Entrance
Dam
CLOSED LAGOON
Passway Fish Pass The Dam Here
Always open and accessible 16m width 3-5m deep concrete bottom: wrip wrap
Hi Transition Salty-fresh water Long Enough to Prevent Salt Penetration
Yeah! Soft Edge
Dyke
Dam Embraces Fish-migration-river
4 Natural Part-Freshwater Tide bottom: sand, rocks
5 Technical Part bottom: sand, rocks
Let’s go to the sea!
05 STRATEGY PHASE 3 SHIP-LEFTS AND TRANSFER SYSTEM Ship-Lefts And Transfer System
Location of Ship Lift
Sketch Source: 3D Warehouse Bar
rier
Dam/B
arrage Sea
Barrier
oon
d Lag
Close
The forth gate
Ship lift
The third gate The second gate The first gate
No.3 Ship Chamber
No.2 Ship Chamber
No.1 Ship Chamber
Lido Inlet
Malamocco Inlet
Current Ship Route Proposed Ship Route For Travel Proposed Ship Route For cargo Canceled Route Landscape View and Fish Migration
Chioggia Inlet
Sheave hall with crane Rope pulley Visitors platform Ship chamber
Closed Lagoon
Small Ship-lifts Main For Tourist
Cruise ship, hydrofoil craft, small passenger ship
Ship chamber
Big Ship-lifts Main For Industrial
Counter weights
Cruiser, tanker, cargo boat, big passenger ship
Adriatic Sea
Ship chamber Ship chamber basement
DRAW WITH SKECHUP, PHOTOSHOP
06
TRAVEL BETWEEN HISTORY AND MODERNITY XUEYE LAKE RIPARIAN PARK Xueye, Shandong, China Large Scale Plan 26 ha 2015 Individual Design Graduation Project
s
Northen Range
er
Laiwu
Tongtian Riv
1M il e s
3M
r
il e s
Ra
ve Ri
di u
il e s 5M
Shandong
en gw Yin
Ra
di u
s
River Tourist Area
R
ad
Shandong
iu s
SITE
Ri ve
r
Dragon Mountain
site
Laiwu
Downtown
Fe ng m
Xueye Town
Mountain view area
ing
Xueye River
Xueye Lake Park Ecotourism area
Mountain view area
Xueye River
07 LAND USE ANALYSIS
The site is located in the business district and its main function is to provide leisure and distribution for commercial land on both sides of the strait.
TRAFFIC ANALYSIS
Industrial area Highway Residential area green land Tourist area Water Public service facility area
CONCEPT
PAST/ HISTORY
Laotan Mountain
The famous "Changshao Battle" took place here 2700 years ago, as well as the ancient Qi Great Wall. This plot was previously used for farming and fishing. Some landscapes are designed to show the history and the former agricultural form of the site.
Luye Road
Yin y
an
Ro
ad
ttle
SITE TRANSFORMATION
a oB
ha
s ng
a
Ch
all W t
ea
r iG
Q CROSS
There is a mountain at the intersection of the east-west direction and the northsouth direction. We climbed the mountain and looked far away - west is to recall history and the past, south is to enjoy modern life.
ol
o gP
in
PRESENT/ MODERN
There is no ocean in this city, and the river is so deep that people cannot swim. This plot is designed with artificial beaches and pools to provide locals with modern entertainment and relaxation.
m im
Sw
ch
ny
n Su
Surrounding tourism resources
a Be
MASTER PLAN
FUNCTION N
Historical Teaching Area Wetland Ecological Zone Mountain Leisure Area Landscape Planting Area Sports And Entertainment Area Playground 1 Children Playground 2 Pavilion 3 Main Entrance 4 Lawn 5 Leisure Path 6 Cruise Ship Terminal 7 Parking Lot 8 Lawn Stairs 9 Hydrophilic Step 10 Mountain 11 Leisure Path
E Modern entertainment area
51 Artificial beach 52 Swimming pool 53 Integrated service center 54 Lounge chair 55 Glen trail 56 Extreme sports field 57 Cafe 58 Sports lawn 59 Amphitheatre 33 Hydrophilic wood plank 35 Dam 41 Tree plaza
B History
21 Great Wall Landscape Bridge 22 Historical square 23 Hydrophilic platform
F Four seasons plant landscape
61 Summer landscape area 62 Autumn landscape area 63 Winter landscape area 64 Spring landscape area
C Wetlands
31 Wetlands Science Museum 32 Wetland island 33 Hydrophilic wood plank 34 Wetland purification pond 35 Dam
G Stacked water
71 v 72 Rest are 73 Bridge 33 Hydrophilic wood plank
D Tracing past
41Tree plaza 42 Lawn 43 Play farmland 44 Fishing pond 45 Dining Center
A Entrance area
Central Hydrophilic Zone
ELEVATION
Height
- 228
08 VIEW
TRAFFIC
Mountain View Lake View Garden View Water Feature View
FLOODINGPLAIN
+
256
Park Entrance Node Cruise Ship Mooring Point Main Road Secondary Road Sidewalk Hydrophilic Walkway
PLANTING
Fema 100 Year Floodplain
Agricultural Planting Area
Fema 20 Year Floodplain
Four Seasons Landscape
Water Level
Lawn Sparse Forest Dense Forest
HISTORY
WETLANDS 5
1 Great Wall Landscape Bridge 2 Waterfront Main Road 3 Hydrophilic Platform 4 Children Playground 5 Lawn 6 Leisure Path 7 Mountain 8 Wetlands Science Museum
1
1
2
4 10
2 5 7
6
1 3
5 9
2
6
4
5
Great Wall
Ascend
Beacon
8 4
7
8
6
Historial plaza
Wetlands
Wetland Muse
eum
09 1 Wetlands Science Museum 2 Wetland Island 3 Hydrophilic Wood Plank 4 Wetland Purification Pond 5 Tree Plaza 6 Lawn 7 Play Farmland 8 Fishing Pond 9 Dining Center 10 Waterfront Main Road
MODERN ENTERTAINMENT AREA
8 5
3 10
Hydrophilic wood plank
3 8
1 Artificial Beach 2 Sand Playground 3 Swimming Pool 4 Swimming Pool For Kids 5 Integrated Service Center 6 Lounge Chair 5 Glen Trail 6 Extreme Sports Field 7 Tree Array 8 Waterfront Main Road 9 Leisure Path 10 Dam 11 Private Space
2
1
2 6
11
4
7
10
9
8 9
Artificial beach
Service Center
Swiming Pool
11
BIRDS' EYE VIEW
Playground
Waterfront Boardwalk
Historical Square
Engravings on rust steel plates to show the history and culture of Laiwu
Rest Area
10
Ditch trail Riparian
trail Natural gentle slope Riparian
Hydrophilic step
Natural bank
Hydrophilic step
Rowboat
trail
Greenbelt
Hydrophilic platform
Block stone slope
Ascend
Swiming Pool
Beacon
Platform
Greenbelt
Riparian
Artificial beach
Service Center
Fishpond
Historiacal Reservation
trail
Historial plaza
Rowboat
Wetlands
Waterfall
Farmland
Wetland Museum
Hydrophilic wood plank
HUAILAI 怀来
CENTRAL PARK 中央公园 PETALS HUAILAI
FLOWING WITH WATER CENTRAL PARK
11
RUNNING AROUND PETALS SWINMING IN THE RIVER HUAILAI SPORTS PARK Huailai, Hebei, China Park Design 24 ha 2017 Group Design Individual Graphic
SITE LOCATION
PLAN GENERATION
115°E. 115°E.
ZHANGJIAKO U
CHENGDE
40°24'N. DATONG
HUAILAI
QINHUAGDAO BEIJING TANG SHAN
BAODING
TIANJIN BOHAI BAY
TAIYUAN
INSPIRATION
CONCEPT
Flo w
ing
Pe
tal
s
Convergence
Flowing
Huailai Reservoir is the first large reservoir on the Haihe River. Huailai is the largest area in China to cultivate Chinese flowering crabapples which have brought luck and happiness to people in China for thousands years.
Flowing curve
+
Zigzag
Fold curve
12
N
MASTER PLAN
22 0 10 20
50
1. Main Entrance 2. Parking Area 3. Lawn 4. Sport Area 5. Great Wall Sculpture 6. Young Children's Playground 7. Older Children's Playground 8. Play Pool 9. Stream Valley 10. Tree House 11. Extreme Sports Field 12. Flower Corridor Stairs 13. Waterscape Wall 14. Campsite 15. Flower Lake 16. Water Plank Road 17. Theme Maze 18. Water Bay 19. Forest 20. Second Entrance 21. Theme Sculpture 22. Municipal Green Space
100m
19 18 09 20
15
17
03
14 16
19
01
05 13
11
10
07 06 08 04
STREAM AND POND Flow to Guanting Reservoir
12
21
DRAINAGE ANALYSIS
SPACE ANALYSIS
02
CIRCULAR RUNWAY
Rain, flood, etc.
Rain, flood, etc.
环线一 环线二 补给站 卫生间
Water Flow Direction Pond Range
Drainage Direction Rainwater Collection
Landscape Loop Landscape Node
Loop 1-1120m Loop 2-880m Supply Station Restroom
MAIN SECTIONS DESIGN Entrance Plaza
LOGO
Sculpture
LOGO wall
Step Planting Pool
Platform
Step Planting Pool
544.20 540.20 536.20
Main Entrance
Playground
Play Facilities
Sand Pit
Climbing
Slide
Viewing platform
538.20
535.50
Children Playground
Main Road
Stream Valley
Butterfly Valley
Retention Pond
Forest
13
Main Entrance
Preserved Chinese flowering crabapple
522.55
522.55
River
522.10
Pond
522.55
Stage
523.00
523.00 522.10
523.00
522.10
Pond
Sitting Area
Plaza
Children playground
Stream Valley
Amphitheater
TREE HOUSE
14 DANDELION SCULPTURE
1.47 1.08
+4.68m
1.08
+5.76m
+2.70m
2.70
2.43
2.38
25
TREE HOUSE
±0.00m
15
RENEW DISTRICT, AWAKEN CULTURE GULOU STREET URBAN DESIGN Gulou Street, Beijing, China Urban Renewal 49.8 ha 2016 Group Design Individual Graphic
SITE LOCATION
Xicheng District
Beijing
Gulou West Street
DESIGN RANGE Deshengmen East Street
Deshengmen
lo
u
We
st
St
re
Street Old Gulou
Gu
et
Drum Tower
PROBLEMS STATEMENT
Drum Tower
01 OCCUPIED
02 BROKENED
03 FEATURELESS
04 DISORDER
16
Road section with more than 6m width
Road section with 4-6m width
Road section with 2-4m width
Street Traffic
Road section with less than 2m width
Characteristic Cultural Pavement The characteristic Hutong are designed with different splicing methods of permeable bricks with cultural pavements to reflect the history and culture of the Hutong.
The streets in Hutongs are narrow, and one-side parking spaces could be created in alleys that more than 6m. An outdoor turning wide-angle lens can be set at the turn to ensure safe driving and residents.
Walled Gate
Wishful Gate
8500
8500
Vertical greening pond
Removable flower box
Western Gate
1000
900 450
Surround pattern
Begonia flower pattern
1000 800
1000
900
2000
Barbarian Gate
450
R E O R GA
N IZ
E
DE
O
E
IN H
SE
TE VA VELOPM
REN
PRE
RV
E RI
T EN
T
17
SOLUTIONS 01
FINDING AND DESIGNING FOR NEGATIVE SPACES
By looking for micro spaces in the old streets and repurposing them, we can update the overall public space.
02
ADDING GREEN WALL
03
PROVIDING SPECIAL DESIGNS FOR HISTORIC STREETS
Adding small green wall along the street, such as Lianas, planting pool, planting box and so on.
To the streets with history stories and ancient buildings, we find out their culture create a distinctive view.
04
DESIGNING MULTI-FUNCTION AREAS We c o m b i n e p l a y g r o u n d s , s p o r t s , c h e s s , communication and other functions into the micro space.
CONSTRUCTED, PHOTOED AT 04/2019
18
SCENIC VIEWS FROM SWAN LAKE
RONGCHENG LANDSCAPE DESIGN Rongcheng, Shandong, China Urban Design 12.6 ha 2018 Group Design Individual Graphic
MASTER PLAN
SITE LOCATION
10
CONCEPT
China
Shandong
Weihai
Rongcheng
09
12
11 08
"Swan migration" Pursue the warmest and most comfortable home
06 07
EXTRACTION ELEMENT
Smooth lines
01 02 03 04 05 06 07 08 09 10 11 12 13
Main Entrance Theme Sculpture Frost Snow Square Migratory Sculpture Migration Platform Outdoor Sinking Negotiation Area A Feather Slide A Feather Sculpture Clubhouse Outdoor Negotiation Platform Staff Access Plant Groups Ground Parking
Coordinated sequence DRAW WITH PHOTOSHOP
05
03 04
02 01
01
1
19 CONSTRUCTED PHOTOED AT 04/2019
13
N
0
5
10
20m
PLANTING ANALYSIS
TRAFFIC ANALYSIS Current Preserved Trees Transplanted Vegetations New Plants
Club entrance Car lane Bus lane Sidewalk Office road Fence line
N
0 5 10
DRAW WITH SKETCHUP, LUMION, PHOTOSHOP
N
20m
0 5 10
20m
20 TERRACE ANALYSIS
Main Entrance
Migration Platform
Migratory Sculpture
1. Landscape terrace combined with planting
2. Retaining wall combined with natural slope
3. Stair steps combined with waterscape
DRAW WITH SKETCHUP, LUMION, PHOTOSHOP
SWAN SQUARE
CONSTRUCTED PHOTOED AT 04/2019
Fountain
DRAW WITH SKETCHUP, LUMION, PHOTOSHOP
Swan Sculpture
See The Square From The Grass Steps
21 TERRACE
CONSTRUCTED PHOTOED AT 04/2019
Feather Shaped Slides And Wheat Shaped Lamps
DRAW WITH SKETCHUP, LUMION, PHOTOSHOP
Stainless Steel Edge And Small Sculpture
Steps And Rust Steel Plate Edge
CONSTRUCTED PHOTOED AT 04/2019
22 CONSTRUCTED PHOTOED AT 04/2019
CONSTRUCTION DOCUMENTS LID Grading Plan 2020 Individual Graphic Austion, Texas 0.846 ac
由 AUTODESK 由 由 由 由 由
1.00%
93.49
96
96.10
1.83%
96.36
95.44
2.0
TC94.80 BC94.30
93.57
HP93.66
93.00 TC93.70 BC93.20
TC94.20 BC93.70
100.00
96.52
97.00
Volume 3656 cu ft
95.00 12" Drainage Pipe
90
RAIN GARDEN
97.00
0.96%
96
95.00
95.73
0.5% slope
95.73
95.00
1.00%
90 area 289.91 sq ft
93.74
3.80%
3.80%
90
5.00%
98
S 03°10'30" W
97.00
98.00
5.00%
92
95.00
LOWER FFE 97.00
TC95.44 BC94.94
TC95.26 BC94.76
91 area 1076.17 sq ft
93
UPPER FFE 100.00
3.33%
5.00%
96.24
100.00
91.50
91
97.00
96
97
96.24 96.00
4.00% 96.52
97.00
BREAK LINE
100.00
0.96%
95
0%
96.50
TC94.67 BC94.12
S 03°10'30" W
95.00
MIXED-USE CENTER BASE MAP
N 86°49'30" W
99 3.33%
TC99.12 BC98.62
97.00
3.33%
BREAK LINE
TC95.86 BC95.36
TC94.50 BC94.00
1.
1.67%
Shu Sun
TC95.50 BC95.00
96
97
%
95.69
TC98.37 BC97.87
92 area 2476.56 sq ft
94
95
TC98.50 BC98.00
91
00
98
TC98.45 BC97.95
TC93.81 BC93.31 94.55
98.00
3.33%
95.00
96.00
97.00
94.00
TC98.50 BC98.00
TC95.40 BC94.90
TC94.96 BC94.45
1.67%
TC95.00 BC95.00
Shu Sun
93 94.00 2.00%
HP 98.00 98.30 98.20 2.90% 1.00%
N 03°10'30" E 156.67 FT
2.00%
99.35
92
Texas A&M University Landscape Architecture
TAMU
3.33%
TC98.80 BC98.30 HP98.80
HP 98.63
BC98.00
3.33% TC98.00
98 98.00
97.00
IRON ROD (500.00, 500.00, 99.25)
TC97.00
97
SWALE3.33%
TC95.70 BC95.20
BC96.00
BC97.00
96.00
95
Exercise 2.1
TC99.50 BC99.00
TC95.26 BC94.75
96
TC94.50 BC94.00
MIXED-USE CENTER
94 95.00
94.00
S 86°49'30" E 215.75 FT
PROJECT 2.1 DATE 01/30/2020
BM SPIKE IN POLE, 100.75
SCALE 1"=20'
SHEET
1
由 AUTODESK 由 由 由 由 由
23
CONSTRUCTION DOCUMENTS LID Planting Plan 2020 Individual Graphic Austion, Texas 0.846 ac
MIXED-USE CENTER BASE MAP
N 86°49'30" W
(6) COR XGR 10 gal.
(1) COR 10 gal. XGR
(3) RHU ARO 1 gal.
(179 sf) MYR PUS 1 gal.
(344 sf) COR LA2 1 gal.
(1) QUE NIG 30 gal.
(78 sf) IRI BRE 1 gal.
(83 sf) ZOY JAP sod
(5) RHU ARO 1 gal.
(1,934 sf) IRI BRE 1 gal.
(2) MYR CAU 10 gal.
(4) MYR CAL 5 gal.
(84 sf) COR LA2 1 gal.
RAIN GARDEN
(35) MYR CAL 5 gal. (172 sf) ZOY JAP sod
(4) COR XGR 10 gal.
(250 sf) COR LA2 1 gal. (2) MYR CAU 10 gal.
(8) RHU ARO 1 gal.
(3) MYR CAL 5 gal.
(102 sf) IRI BRE 1 gal.
(233 sf) ZOY JAP sod
(167 sf) MYR PUS 1 gal.
(1) RHU ARO 1 gal.
(5,333 sf) ZOY JAP sod
(2) MYR CAU 10 gal.
(127 sf) ZOY JAP sod
(5) MYR CAL 5 gal.
(250 sf) COR LA2 1 gal.
(2) RHU ARO 1 gal.
(3) RHU ARO 1 gal.
Shu Sun
N 03°10'30" E 156.67 FT
(233 sf) ZOY JAP sod
Shu Sun
(4) MYR CAL 5 gal.
(3) MYR CAL 5 gal.
(1) RHU ARO 1 gal. (1) COR XGR 10 gal.
Texas A&M University Landscape Architecture
TAMU
(1) QUE NIG 30 gal. Exercise 4.1
(8) MYR CAU 10 gal.
MIXED-USE CENTER
PROJECT 3.1
BM SPIKE IN POLE, 100.75
(5) QUE NIG 30 gal.
DATE 02/13/2020 SCALE 1"=20'
SHEET
1/2
PLANTING ANALYSIS
ANALYSIS 1
The Water Cube and the plants of the temple in the north have enclosed, converted, and set off the site.
2011 Individual Work Beijing Olympic Park , Beijing, China 4.7 ha
MASTER PALN
SECTION
sight permeability 1 ENCLOSED. It can create space for concentrated activities by enclosing the square area with dense plants.
2 CONVERSION. Different styles of Water Cubes and temples are converted by plants. 3 S E T O F F. P l a n t s c a n s o f t e n t h e boundaries of the building and bring seasonal changes to the landscape.
MASTER PALN
24 ANALYSIS 2
The Chinese scholartree and cypresses in the temple are large in volume and long in age. They correspond to the cypresses planted outside the wall, and integrate the inner and outer landscapes to form a continuous visual effect. In addition, the evergreen trees planted in rows arev more solemn.
ANALYSIS 3
ANALYSIS 4
Different planting units are repeated in form and texture, so that these units are combined into a unified whole. Evergreen trees are combined with deciduous shrubs, and deciduous trees are combined with evergreen shrubs to be more coordinated in color and texture.
The green area on the east of the site is adjacent to the main road of the Olympic Park. Therefore, densely planted willows and scattered planted pines are chose to form layers and rhythms in height and texture, which are neither messy nor boring.
MASTER PALN
MASTER PALN
SECTION
MASTER PALN
form
Planting restricts people's attention to the space enclosed by tall trees, and has the effect of framed scenery, which reduces the impact of the vehicle on the road.
SECTION texture texture
MASTER PALN
SECTION
SECTION SECTION
ART WORKS
25
SUN SHU Master of Landscape Architecture Texas A&M University +1 979-402-9051 sunshu@tamu.edu
