JINGBIN WU | PORTFOLIO SELECTED WORKS FROM 2017-2020 Master of Landscape Architecture candidate 2020 University of Pennsylvania jingbinw@design.upenn.edu | 267 530 8448
CONTENTS SAND OPERATIONS Barrier Island Development Lab | 01 CO-OP CROSS NYC Tri-Boro Station Corridor | 06 THE FUTURE OF DEATH IS A FOREST Mt Moriah Cemetery | 10 LIVINGSCAPE OF HUANGJUEPING Self-Regeneration of Historic Community | 14 ARCHITECTURE WORKS Forest Library Extension, Cloud Church | 17 PROFESSIONAL WORKS John Ball Zoo Entry Valley, Sanlin InCity Mall | 20 CATALOGUE OF OTHER WORKS Research, Hand Craft | 23
CONTENTS SAND OPERATIONS Barrier Island Development Lab | 01 CO-OP CROSS NYC Tri-Boro Station Corridor | 06 THE FUTURE OF DEATH IS A FOREST Mt Moriah Cemetery | 10 LIVINGSCAPE OF HUANGJUEPING Self-Regeneration of Historic Community | 14 ARCHITECTURE WORKS Forest Library Extension, Cloud Church | 17 PROFESSIONAL WORKS John Ball Zoo Entry Valley, Sanlin InCity Mall | 20 CATALOGUE OF OTHER WORKS Research, Hand Craft | 23
SAND OPERATIONS | Barrier Island Development Lab Fall 2018 | Landscape 601Studio | University of Pennsylvania Instructor: Mark Thomann
TRANSFORMING PROCESS WITH STORM AND FOR STORM
01
2032 Hurricane Green
2049 Hurricane Juno
2075 Hurricane Grant
2078 Hurricane York
Coastal Area
Back Bay Area
Centrol Area
Highland Area
Springboard Open Inlet Remove Jetty Wetland Consolidate
Sand Machine Breach Widened Habitat Wetland Growth
No Car Entry Trail and Jetty
Visitor Facility Research Center
SAND OPERATIONS | Barrier Island Development Lab Fall 2018 | Landscape 601Studio | University of Pennsylvania Instructor: Mark Thomann
TRANSFORMING PROCESS WITH STORM AND FOR STORM
01
2032 Hurricane Green
2049 Hurricane Juno
2075 Hurricane Grant
2078 Hurricane York
Coastal Area
Back Bay Area
Centrol Area
Highland Area
Springboard Open Inlet Remove Jetty Wetland Consolidate
Sand Machine Breach Widened Habitat Wetland Growth
No Car Entry Trail and Jetty
Visitor Facility Research Center
Flood Risk | Habitat Loss | Misconception Release | Restore | Reprogram 85% of New Jersey shore is defensed by barrier islands - the first natural barrier against storm. However, 90% of them are shrinking due to intense development. They can grow higher with sea level rise and keep protecting the inland if they are allowed to. Rather than maintaining present under increasing risk of destructive storms, new relationship between water and land is needed to restore natural barrier function and redirect development pattern.
85% of New Jersey shore is surrounded by barrier island - the first natural barrier against flood.
This experimental project is the phase 1 for future island development. Initiated after future storm destruction, to remove hard built surface, build sediment springboard with recycled material, restore historical estuary and reinforce marsh edge. Combining research and visiting, the barrier island development lab will reclaim the land of nature, maintain the island’s vitality, keep holding the fragile coastal ecosystem and explore the future of coast in the changing climate.
Vulnerable Coasts
Damaged Barriers
In the FEMA 1% Flood Zone:
On these barrier islands:
350,302
Developed Land
Residents
Highlands and Rumson Borough
Shoreline Engineered
Schools
6
$ 65B
39
6 $ 65B6 $ 65B Police Station F
Hurricane Sandy
6
Rebuild Island
Rebuild Island
Ft Beach Erosion
F
Ft Beach Erosion
$ 1.5B 96 $ 1.9B$ 1.5B $ 1.9B Fire Station 25 Years Shore
25 Years Shore
Maintain Project
Brick, Toms River and Forked River Borough and Berkeley Township
Ft Beach Erosion
$ 1.5B $ 1.9B
Rebuild Island
$ 1.5B $ 1.9B
Bay Head
Maintain Project
+87%
$ 65B Frequency of
Ft Beach Erosion
25 Years Shore
Rebuild Island
Sea Bright Monmouth Beach
>50%
61
F
F
69%
Sandy Hook
Maintain Project
Intense hurricane
$3.4B
Maintain Present Shoreline Ortley Beach
Seaside Heights
Seaside Park Island Beach
25 Years Shore
Maintain Project
Stafford Township Little Egg Harbor Township and Tuckerton Borough
Long Beach Island
Beach Haven Great Bay
Absecon, Pleasantville, Northfield, Linwood, Somers Point and Tuckerton Borough
Pullen Island
Brigantine Island Atlantic City
Ocean City Peck Beach
Sea Isle City Avalon Ludiam Beach Seven Mile Beach
Diamond Beach Cape May
02
Flood Risk | Habitat Loss | Misconception Release | Restore | Reprogram 85% of New Jersey shore is defensed by barrier islands - the first natural barrier against storm. However, 90% of them are shrinking due to intense development. They can grow higher with sea level rise and keep protecting the inland if they are allowed to. Rather than maintaining present under increasing risk of destructive storms, new relationship between water and land is needed to restore natural barrier function and redirect development pattern.
85% of New Jersey shore is surrounded by barrier island - the first natural barrier against flood.
This experimental project is the phase 1 for future island development. Initiated after future storm destruction, to remove hard built surface, build sediment springboard with recycled material, restore historical estuary and reinforce marsh edge. Combining research and visiting, the barrier island development lab will reclaim the land of nature, maintain the island’s vitality, keep holding the fragile coastal ecosystem and explore the future of coast in the changing climate.
Vulnerable Coasts
Damaged Barriers
In the FEMA 1% Flood Zone:
On these barrier islands:
350,302
Developed Land
Residents
Highlands and Rumson Borough
Shoreline Engineered
Schools
6
$ 65B
39
6 $ 65B6 $ 65B Police Station F
Hurricane Sandy
6
Rebuild Island
Rebuild Island
Ft Beach Erosion
F
Ft Beach Erosion
$ 1.5B 96 $ 1.9B$ 1.5B $ 1.9B Fire Station 25 Years Shore
25 Years Shore
Maintain Project
Brick, Toms River and Forked River Borough and Berkeley Township
Ft Beach Erosion
$ 1.5B $ 1.9B
Rebuild Island
$ 1.5B $ 1.9B
Bay Head
Maintain Project
+87%
$ 65B Frequency of
Ft Beach Erosion
25 Years Shore
Rebuild Island
Sea Bright Monmouth Beach
>50%
61
F
F
69%
Sandy Hook
Maintain Project
Intense hurricane
$3.4B
Maintain Present Shoreline Ortley Beach
Seaside Heights
Seaside Park Island Beach
25 Years Shore
Maintain Project
Stafford Township Little Egg Harbor Township and Tuckerton Borough
Long Beach Island
Beach Haven Great Bay
Absecon, Pleasantville, Northfield, Linwood, Somers Point and Tuckerton Borough
Pullen Island
Brigantine Island Atlantic City
Ocean City Peck Beach
Sea Isle City Avalon Ludiam Beach Seven Mile Beach
Diamond Beach Cape May
02
STUDY OF HISTORICAL SHORELINE AND WATER SYSTEM
SUSTAINABLE STRATEGY MARSH REINFORCEMENT
Shoreline Changes and Water Flow of the Coast 1984 - 2016
ISLAND RESTORATION
SECOND BARRIER ISLAND
Legend Shoreline of each year through 1984-2016 1984
Storm
1
2016 Shoreline of every 30 years through 1836-2000
Storm Damage
1841 1871 1899 1933
Great Bay
1950
Marsh
2
1977 2000
INLET ACCELERATING
Water Dynamics Water flow Sediment Direction Site of interest
0
2,000'
4,000'
Sand Springboard
Sand Operations
Island Capture
Build with Salvaged Material
OVERFLOW DIRECTING
ACCRETION RETAINING 8,000'
Edge Capture
More Storms River Delta
3
Sediment Accumulation
4
Rising & Migrating with Sea Level
INLET SHIFTING CATCHING Sea Level Rise Planting with Succession
Storm Surge Sediment
Dune Marsh
ALKWAY LIFTED W
SEC ON
DB AR
RIE
SAND FIELD LE WALKAB
Bay
R IS
LAN
JETTY
Inlet
AR BO
D
G
IN
Open Sea
SE CO N
D
R SP
D
Dune
03
Beach
BA R
RI
ER
ISL
AN
D
STUDY OF HISTORICAL SHORELINE AND WATER SYSTEM
SUSTAINABLE STRATEGY MARSH REINFORCEMENT
Shoreline Changes and Water Flow of the Coast 1984 - 2016
ISLAND RESTORATION
SECOND BARRIER ISLAND
Legend Shoreline of each year through 1984-2016 1984
Storm
1
2016 Shoreline of every 30 years through 1836-2000
Storm Damage
1841 1871 1899 1933
Great Bay
1950
Marsh
2
1977 2000
INLET ACCELERATING
Water Dynamics Water flow Sediment Direction Site of interest
0
2,000'
4,000'
Sand Springboard
Sand Operations
Island Capture
Build with Salvaged Material
OVERFLOW DIRECTING
ACCRETION RETAINING 8,000'
Edge Capture
More Storms River Delta
3
Sediment Accumulation
4
Rising & Migrating with Sea Level
INLET SHIFTING CATCHING Sea Level Rise Planting with Succession
Storm Surge Sediment
Dune Marsh
ALKWAY LIFTED W
SEC ON
DB AR
RIE
SAND FIELD LE WALKAB
Bay
R IS
LAN
JETTY
Inlet
AR BO
D
G
IN
Open Sea
SE CO N
D
R SP
D
Dune
03
Beach
BA R
RI
ER
ISL
AN
D
PLANTING DESIGN 2020 Foredune Grass As storm surge brings sediment to the basin, pioneer beach grasses are planted to stabilize shifting sand. Due to steep slope of sand accumulation, coconut fiber fixed by stakes are applied to help grass establishment and avoid instant wind erosion.
American beachgrass
bitter panicgrass
Sea oats
2050 Backdune Grass After several storms, early plants were burried but their roots continue to hold sand and some started to migrate to shallower sand. Earlier fixed surface acts as sand fence and collects more sand. Backdune grasses are planted on gentler slope.
saltmeadow cordgrass
coastal little bluestem
seaside goldenrod
beach pea
eastern red cedar
American holly
sassafras
pitch pine
2100 Shrub / Trees Bayberry
As sand accumulates, shrubs and trees can be planted on thick sand. The dune plant community is fully established and has the ability to migrate and take up more space in the planting area. The rising of sand catches speed of sealevel rise, keeps the barrier island healthy.
04
Beach plum
Winged sumac
PLANTING DESIGN 2020 Foredune Grass As storm surge brings sediment to the basin, pioneer beach grasses are planted to stabilize shifting sand. Due to steep slope of sand accumulation, coconut fiber fixed by stakes are applied to help grass establishment and avoid instant wind erosion.
American beachgrass
bitter panicgrass
Sea oats
2050 Backdune Grass After several storms, early plants were burried but their roots continue to hold sand and some started to migrate to shallower sand. Earlier fixed surface acts as sand fence and collects more sand. Backdune grasses are planted on gentler slope.
saltmeadow cordgrass
coastal little bluestem
seaside goldenrod
beach pea
eastern red cedar
American holly
sassafras
pitch pine
2100 Shrub / Trees Bayberry
As sand accumulates, shrubs and trees can be planted on thick sand. The dune plant community is fully established and has the ability to migrate and take up more space in the planting area. The rising of sand catches speed of sealevel rise, keeps the barrier island healthy.
04
Beach plum
Winged sumac
NATURAL PROCESS
LANDSCAPE OF SAND AND RESILIENCE Landscape Of Sand
System Of Water
Surge water drains fast through sand surface
Currents circulate through Inlets
Walkable Jetty
System Of Sand
Infiltration leaves sand deposit in “basins” behind springboards.
Circulation brings sediment to marsh and second barrier island.
05
NATURAL PROCESS
LANDSCAPE OF SAND AND RESILIENCE Landscape Of Sand
System Of Water
Surge water drains fast through sand surface
Currents circulate through Inlets
Walkable Jetty
System Of Sand
Infiltration leaves sand deposit in “basins” behind springboards.
Circulation brings sediment to marsh and second barrier island.
05
CO-OP CROSS | NYC Tri-Boro Station Corridor Spring 2019 | Landscape 602 Studio | University of Pennsylvania Team: Yun Wang | Instructor: Christopher A. Marcinkoski
06
CO-OP CROSS | NYC Tri-Boro Station Corridor Spring 2019 | Landscape 602 Studio | University of Pennsylvania Team: Yun Wang | Instructor: Christopher A. Marcinkoski
06
Disconnection | Car dependent | Poor Residential Area Metro Extension | TOD | Public Green Co-op city is the largest cooperative community in the US, providing affordable housing for more than 50,000 people in New York. However, it systemically faces financial crisis and suffers from the poor accessibility and flooding risks. The community is isolated from the rest of city by the I-95 and the Hutchinson Parkway. We are proposing a development plan based on phases to introduce investments, provide accessibility and reconnect the community to the city. Start with a new metro station on the branch of Tri-Boro line funded by the government. Commercial offices, retails and a technology campus will come to build the decking with the new buildings over the I-95, to connect the station and people of the surrounding communities. As the core area expands, the boulevard will reach into the town house communities anchored with a community park, then become the campus green that will extend to the riverfront and improve the living condition of Co-op City residents with more programmed public space and flood protection. If the model succeeds, there is a potential to build another station and the decking system on northern part of Co-op City, bringing more intervention to the community with internal circulation and some possible infills and finally connect the whole area.
WHAT IF Co-Op city is
... revived by the commercial development on its vacant lots?
... densified to extreme to generate profits from real estate?
07
... improved with new public facilities therefore raises its rent?
Disconnection | Car dependent | Poor Residential Area Metro Extension | TOD | Public Green Co-op city is the largest cooperative community in the US, providing affordable housing for more than 50,000 people in New York. However, it systemically faces financial crisis and suffers from the poor accessibility and flooding risks. The community is isolated from the rest of city by the I-95 and the Hutchinson Parkway. We are proposing a development plan based on phases to introduce investments, provide accessibility and reconnect the community to the city. Start with a new metro station on the branch of Tri-Boro line funded by the government. Commercial offices, retails and a technology campus will come to build the decking with the new buildings over the I-95, to connect the station and people of the surrounding communities. As the core area expands, the boulevard will reach into the town house communities anchored with a community park, then become the campus green that will extend to the riverfront and improve the living condition of Co-op City residents with more programmed public space and flood protection. If the model succeeds, there is a potential to build another station and the decking system on northern part of Co-op City, bringing more intervention to the community with internal circulation and some possible infills and finally connect the whole area.
WHAT IF Co-Op city is
... revived by the commercial development on its vacant lots?
... densified to extreme to generate profits from real estate?
07
... improved with new public facilities therefore raises its rent?
TOD CORE AREA SITE PLAN 1. Bike Parking 2. Lawn Berm 3. Tri-boro Station 4. Train Platform Below 5. Grand Canopy 6. Bike Storage
LANDSCAPE OF MOVEMENT: FAST, SLOW, STAY 7. Grove Garden 8. Bike Express Bridge 9. Pine Grove 10. Multifunctional Plaza 11. Sunken Lawn 12. Pavilion Plaza
13. Grand Lawn 14. Amphitheater 15. Pond 16. Planter
0
100'
200'
400'
16
14
13
12
11
7 6 5 3
8 10 9
2
4
1
08
15
TOD CORE AREA SITE PLAN 1. Bike Parking 2. Lawn Berm 3. Tri-boro Station 4. Train Platform Below 5. Grand Canopy 6. Bike Storage
LANDSCAPE OF MOVEMENT: FAST, SLOW, STAY 7. Grove Garden 8. Bike Express Bridge 9. Pine Grove 10. Multifunctional Plaza 11. Sunken Lawn 12. Pavilion Plaza
13. Grand Lawn 14. Amphitheater 15. Pond 16. Planter
0
100'
200'
400'
16
14
13
12
11
7 6 5 3
8 10 9
2
4
1
08
15
WALKING EXPERIENCE ALONG THE CORRIDOR
E
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FI OF E
LAN FAST
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BIK
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TRIAN EDES
L
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LA LOW
S TRIAN EDES
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BIKE HIGHWAY
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LAZ A
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LTIF U
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MU
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SB
UI LD
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WALKING EXPERIENCE ALONG THE CORRIDOR
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THE FUTURE OF DEATH IS A FOREST | Mt Moriah Cemetery Fall 2019 | Landscape 701 Studio | University of Pennsylvania Instructor: Bart Brands, Darius Reznek, Marit Noest, Rachel Johnston, Meaghan Lynch EXISITNG
MINIMUM
TRANSITION
MAJOR TRANSFORMATION
ESTABLISHED: DAILY ROUTINE
VOLUNTEER GROUP GROWTH & MAINTENANCE INTENSITY
10
THE FUTURE OF DEATH IS A FOREST | Mt Moriah Cemetery Fall 2019 | Landscape 701 Studio | University of Pennsylvania Instructor: Bart Brands, Darius Reznek, Marit Noest, Rachel Johnston, Meaghan Lynch EXISITNG
MINIMUM
TRANSITION
MAJOR TRANSFORMATION
ESTABLISHED: DAILY ROUTINE
VOLUNTEER GROUP GROWTH & MAINTENANCE INTENSITY
10
Global Warming | Abandoned Cemetery | Overgrown Cemetery x Forest | Ritual x Maintenance | Artifact x Plant Mt Moriah Cemetery locates at the breaking point of the lush forest along the Cobbs Creek. After being abandoned, overgrown takes over the lawn landscape. For years community of volunteers have been trying to mow the woods back to lawn. But the invasive species grows faster. And the large number of unmarked burials makes it hard to locate vacant lot to sell. Without new burial and new related volunteer group, keeping this endless and demanding maintenance is questionable. Future of Death Is A Forest project studies the long-term maintenance strategies for the Cemetery and proposes an alternative plan to turn the cemetery into a forest through new burial rituals. Time is the key to maintenance, closely related to people, maintenance intensity and plant succession. The first 20 years of the plan is to establish the forest ecosystem and the later years until 2100 to adapt and adjust for climate change.
Maintainted Lawn
NATURAL FOREST SUCCESSION - 150 YEARS
+0.5 Year Weed
+1 Year Shrub
+5 Year Tree
PLANTING A FOREST - 10 YEARS
o et g Du rin se catte a e ecr sh S ll D nd A i sW ea ree at g T Clim n sti ng Exi armi W
Salt & alkaline resistant
r nce rkembra a M e ing em Liv of R s A e es im Tre ith T d w se po ded Pro bed Em
EXISITNG
CLEAN UP
SUPPLEMENT PLANTING
MASS PLANTING
11
DIVERSE SPECIES
+150 Year Forest
Global Warming | Abandoned Cemetery | Overgrown Cemetery x Forest | Ritual x Maintenance | Artifact x Plant Mt Moriah Cemetery locates at the breaking point of the lush forest along the Cobbs Creek. After being abandoned, overgrown takes over the lawn landscape. For years community of volunteers have been trying to mow the woods back to lawn. But the invasive species grows faster. And the large number of unmarked burials makes it hard to locate vacant lot to sell. Without new burial and new related volunteer group, keeping this endless and demanding maintenance is questionable. Future of Death Is A Forest project studies the long-term maintenance strategies for the Cemetery and proposes an alternative plan to turn the cemetery into a forest through new burial rituals. Time is the key to maintenance, closely related to people, maintenance intensity and plant succession. The first 20 years of the plan is to establish the forest ecosystem and the later years until 2100 to adapt and adjust for climate change.
Maintainted Lawn
NATURAL FOREST SUCCESSION - 150 YEARS
+0.5 Year Weed
+1 Year Shrub
+5 Year Tree
PLANTING A FOREST - 10 YEARS
o et g Du rin se catte a e ecr sh S ll D nd A i sW ea ree at g T Clim n sti ng Exi armi W
Salt & alkaline resistant
r nce rkembra a M e ing em Liv of R s A e es im Tre ith T d w se po ded Pro bed Em
EXISITNG
CLEAN UP
SUPPLEMENT PLANTING
MASS PLANTING
11
DIVERSE SPECIES
+150 Year Forest
OVERALL MAINTENANCE PLAN
SPATIAL MAINTENANCE INTERVENTIONS Existing Landscape Types
Modified Landscape Types
LAWN MOWER
GARDEN TRACTOR
FOREST MULCHER
BOBCAT
Tools & Major Interventions
12
OVERALL MAINTENANCE PLAN
SPATIAL MAINTENANCE INTERVENTIONS Existing Landscape Types
Modified Landscape Types
LAWN MOWER
GARDEN TRACTOR
FOREST MULCHER
BOBCAT
Tools & Major Interventions
12
ABANDONED CEMETERY TO A MANAGED FOREST
2020 Current Vegetation
Lawn
Weed
Woodland
Young Forest
Established Forest
Lawn to Meadow
CONCEPT MODEL - TRANSFORMATION OF THE FOREST
Weed to Forest
2100 Future Vegetation
Forest Preserved
Lawn to Forest
13
Landmark Emphasize
Woodland to Forest
Meadow
Urban Forest
Historic Landmark
Established Forest
Topography
ABANDONED CEMETERY TO A MANAGED FOREST
2020 Current Vegetation
Lawn
Weed
Woodland
Young Forest
Established Forest
Lawn to Meadow
CONCEPT MODEL - TRANSFORMATION OF THE FOREST
Weed to Forest
2100 Future Vegetation
Forest Preserved
Lawn to Forest
13
Landmark Emphasize
Woodland to Forest
Meadow
Urban Forest
Historic Landmark
Established Forest
Topography
LIVINGSCAPE OF HUANGJUEPING | Self-Regeneration of Historic Community Spring 2018 | 8-Univeristy United Graduation Thesis | Tianjin University Team: Yuchen Wang, Peixu Lin | Instructor: Yuhang Kong, Xinnan Zhang, Shanchao Xin Self-Constructed Structures
Closed Roof
Vegetable Field
Pedestrian Path (No-build Zone)
Multifunctional Community Public Space
14
LIVINGSCAPE OF HUANGJUEPING | Self-Regeneration of Historic Community Spring 2018 | 8-Univeristy United Graduation Thesis | Tianjin University Team: Yuchen Wang, Peixu Lin | Instructor: Yuhang Kong, Xinnan Zhang, Shanchao Xin Self-Constructed Structures
Closed Roof
Vegetable Field
Pedestrian Path (No-build Zone)
Multifunctional Community Public Space
14
Historic Streetscape | Poor Public Facility | Low-Income Livingscape | Shared Space | Self-Construction Method
COMPOSING LIVINGSCAPE SPONTANEOUS USE OF SPACE
Huangjueping is a historical community in Chongqing. We discovered the street between industrial lands forgotten by the city still preserved lively scene of daily life of street, strongly contrast to modern residential compounds. But the deterioration of houses and masses on street accumulated with time are calling for community regeneration, otherwise the place will be demolished and the residents will be relocated. Houses along the street were built by residents by them selves. We looked into the sense of ownership and freedom, and human-scale space of the site, abstracted space prototypes, wrote regional development codes to set up basic rules to the place, and self-construction manual for residents to improve their living space with sustainable easy constructions. I chose 3 nodes of public open space on the street and proposed design of multi-functional community place to stimulus community activities. I also researched tectonics of bamboo houses and detailed the low-cost construction method of community houses.
Huangjueping 17 codes
SELF-CONSTRUCTION UNITS
SELF-CONSTRUCTION PROCESS Foundation
Column
Daily Huangjueping: A Self-Construction Manual for the Residents
15
Facade
Beam
Roof
Historic Streetscape | Poor Public Facility | Low-Income Livingscape | Shared Space | Self-Construction Method
COMPOSING LIVINGSCAPE SPONTANEOUS USE OF SPACE
Huangjueping is a historical community in Chongqing. We discovered the street between industrial lands forgotten by the city still preserved lively scene of daily life of street, strongly contrast to modern residential compounds. But the deterioration of houses and masses on street accumulated with time are calling for community regeneration, otherwise the place will be demolished and the residents will be relocated. Houses along the street were built by residents by them selves. We looked into the sense of ownership and freedom, and human-scale space of the site, abstracted space prototypes, wrote regional development codes to set up basic rules to the place, and self-construction manual for residents to improve their living space with sustainable easy constructions. I chose 3 nodes of public open space on the street and proposed design of multi-functional community place to stimulus community activities. I also researched tectonics of bamboo houses and detailed the low-cost construction method of community houses.
Huangjueping 17 codes
SELF-CONSTRUCTION UNITS
SELF-CONSTRUCTION PROCESS Foundation
Column
Daily Huangjueping: A Self-Construction Manual for the Residents
15
Facade
Beam
Roof
ZOOM TO COMMUNITY LIBRARY
365
450
900
1500
5440
1137
100
127
1040
600
Deck: Cedar t=27mm w=100mm @105mm oil finish Floor joist 50×70mm @455mm Cement excelsior board t=15mm Structural Plywood t=15mm
Floor: Flooring t=18mm Structural plywood t=12mm Rigid insulation foam t=50 Floor joist 45×55 @455 Sleeper 105×105
16
ZOOM TO COMMUNITY LIBRARY
365
450
900
1500
5440
1137
100
127
1040
600
Deck: Cedar t=27mm w=100mm @105mm oil finish Floor joist 50×70mm @455mm Cement excelsior board t=15mm Structural Plywood t=15mm
Floor: Flooring t=18mm Structural plywood t=12mm Rigid insulation foam t=50 Floor joist 45×55 @455 Sleeper 105×105
16
XIBA TOFU VILLAGE DOCUMENTATION | Internship at Yuanhe Studio February 2018 - June 2018 | Booklet and Exhibition in the Berlin Studio Team: Xu Lian, Kenan Zhang, Li Li | Project Manager: Sibo Peng
17
XIBA TOFU VILLAGE DOCUMENTATION | Internship at Yuanhe Studio February 2018 - June 2018 | Booklet and Exhibition in the Berlin Studio Team: Xu Lian, Kenan Zhang, Li Li | Project Manager: Sibo Peng
17
TUBE FOREST | Campus Library Extension January 2017- May 2017 | 4th Year Architecture Studio | Tianjin University Team: Jiawei Qi | Instructor: Di Wang, Lu Dai, Xinnan Zhang BOTTOM LEVEL: TREE GARDEN
MIDDLE LEVEL: LIVE IN TREES
UPPER LEVEL: WALK BETWEEN LEAVES
18
TUBE FOREST | Campus Library Extension January 2017- May 2017 | 4th Year Architecture Studio | Tianjin University Team: Jiawei Qi | Instructor: Di Wang, Lu Dai, Xinnan Zhang BOTTOM LEVEL: TREE GARDEN
MIDDLE LEVEL: LIVE IN TREES
UPPER LEVEL: WALK BETWEEN LEAVES
18
CLOUD CHURCH | Community Spiritual Space Fall 2015 | 3rd Year Architecture Studio | National Cheng Kung University Instructor: Wei Fang RENDERING (REVIT) & PHYSICAL MODEL
EXPLODED AXONOMETRIC (REVIT)
Top: Coverage 95%
South: Coverage 100%
Elevator Tube L5 L4 L3
West: Coverage 81%
Fire secape L2 Column
L1 East: Coverage 38%
Cross North: Coverage 17%
19
CLOUD CHURCH | Community Spiritual Space Fall 2015 | 3rd Year Architecture Studio | National Cheng Kung University Instructor: Wei Fang RENDERING (REVIT) & PHYSICAL MODEL
EXPLODED AXONOMETRIC (REVIT)
Top: Coverage 95%
South: Coverage 100%
Elevator Tube L5 L4 L3
West: Coverage 81%
Fire secape L2 Column
L1 East: Coverage 38%
Cross North: Coverage 17%
19
JOHN BALL ZOO ENTRY VALLEY | Internship at CLR Design June 2019 - December 2019 | Phase 1 Currently Under Construction Team: Kristen Gill | Project Manager: Zac Caruolo PHASE 2 PYGMY HIPPO EXHIBIT DD (CAD)
SAMPLE LANDSCAPE DETAILS (CAD)
20
JOHN BALL ZOO ENTRY VALLEY | Internship at CLR Design June 2019 - December 2019 | Phase 1 Currently Under Construction Team: Kristen Gill | Project Manager: Zac Caruolo PHASE 2 PYGMY HIPPO EXHIBIT DD (CAD)
SAMPLE LANDSCAPE DETAILS (CAD)
20
JOHN BALL ZOO GUEST SERVICE BUILDING COMPLEX | Internship at CLR Design June 2019 - December 2019 | Phase 1 Currently Under Construction Team: Mike Nardella, Wayne Chang | Project Manager: Zac Caruolo PHASE 1 GUEST SERVICE BUILDING CD (REVIT)
RENDERING (LUMION)
A
B
C
6'-0"
22'-0"
3
4
1'-4"
3'-4"
John Ball Zoo Entry Valley
4
A130
A130
A120
6'-8"
3'-4"
1'-4"
3'-4"
3'-4"
3'-4"
lr
2'-0"
ENTRY VALLEY
RESTROOM BUILDING EXTERIOR
ARCHITECTURE LANDSCAPE ARCHITECTURE EXHIBIT DESIGN 833 chestnut street, suite 909 philadelphia, pa 19107
D E S I G N
Parking
t 215.564.0250 f 215.564.1154
1 A151
R1 107
106
105
104
PHASE 2
1
2
R4
7
9
A140
A140
R4
R2
New: blondish yellow Zoo
R3
FAMILY RR 106 46 SF
PHASE 1
IT & JANIROR CLOSET 104 38 SF
MOTHER'S ROOM 105 44 SF
4 EAST FULTON STREET, SUITE 200 GRAND RAPIDS, MI 49503
8'-3"
FAMILY RR 107 46 SF
REAL WOOD SIDING - FSC/LBC APPROVED
t 616.363.9801 f 616.363.2480
OS
1'-0"
OS
8 A140
2020 MONROE AVE NW, GRAND RAPIDS, MI 49505
1'-3 3/8"
1'-3 3/8"
OS
11
Aged: light amber brown
Entrance
t 616.456.9944 f 616.456.5936
A140
A130
12 A140 IT RACK 1'-6"
14'-8"
1'-6"
10 A140
Mataverde® Garapa Rain Screen Siding, Hardwood, FSC available https://www.mataverdedecking.com
R1
R2 2'-6 1/2"
2
ENTRY VALLEY
RESTROOM BUILDING EXTERIOR 2
2 A151
A140
MEN RR 103 216 SF
5'-9 1/2"
2'-6 1/2"
3'-0"
2'-6 1/2"
3'-1"
LBC MATERIAL STUDY REAL WOOD SIDING - FSC/LBC APPROVED
3'-1"
103B
1'-4"
3'-4"
R1
1'-4"
DRINKING FOUNTAINS, SEE P-DWGS
ERV-1
Visiting Path
5'-0 7/8"
10'-0 1/4"
K
A140
9'-5"
R1 103A
Stroller Rental
3
1 A140
1'-6"
A120
Aged: silver grey
C.L. STUD
2'-6 1/2"
5'-5 1/4"
3'-11 1/4"
3
New: light straw color to dark red/brown
2'-6"
New: blondish yellow
Western Red Cedar Siding, Softwood, FSC available https://www.realcedar.com
Aged: light amber brown
COMPOSITE SIDING - REQUIRE DECLARATION
HP-1 1
14'-0"
WATER SERVICE & GEO ENTRY
5'-0 1/2"
SLOPE 1/4'' / FT
C.L. STUD
A120
R3 UTILITY CHASE 102 104 SF
R3
Mataverde® Garapa Rain Screen Siding, Hardwood, FSC available https://www.mataverdedecking.com R1
New: light straw color to dark red/brown 1'-7 1/2"
3'-1"
3'-1"
3'-1"
3'-1"
3'-1"
BID PACKAGE #3 CONSTRUCTION DOCUMENTS
1
5 R1 WOMEN RR 101 257 SF
4 5'-3 1/2"
6'-8"
Revisions
R2
'-
6 A140
Date
* Skylight shown above are for reference only. Western Red Cedar Siding, Softwood, FSC available https://www.realcedar.com
A140
A140
R1
12'-0 1/4"
K
11'-0 3/8"
A130
101
Aged: silver grey
Submission
1'-4"
3
2'-6"
ENTRY VALLEY
COMPOSITE SIDING - REQUIRE DECLARATION
6"
R5
AU G U S T 201 9
IN PROGRESS PHOTOS
3"
Seal:
4 3'-10 5/8"
2'-6 1/2"
2'-6 1/2"
R1
2 A120
Nichiha® Fiber cement panels, Manufactured from a mix of Portland cement, fly ash, Sheet Title: silica, recycled rejects, and wood fiber bundles, https://www.nichiha.com
RESTROOM ENLARGED PLAN JBZ18ELV Drawing No.
Project No:
1
A110
Nichiha® Fiber cement panels, Manufactured from a mix of Portland cement, fly ash, silica, recycled rejects, and wood fiber bundles, https://www.nichiha.com
Project Manager:
ENLARGED FLOOR PLAN 1/2" = 1'-0"
GD
Scale: Drawn:
JW
Checked: MN ZC Date: 08/23/2019
A110
* Skylight shown above are for reference only.
21
ENTRY VALLEY
James Hardie® Fiber Cement Siding, https://www.jameshardie.com/products/hardieplank-lap-siding
James Hardie® Fiber Cement Siding, https://www.jameshardie.com/products/hardieplank-lap-siding
1
JOHN BALL ZOO GUEST SERVICE BUILDING COMPLEX | Internship at CLR Design June 2019 - December 2019 | Phase 1 Currently Under Construction Team: Mike Nardella, Wayne Chang | Project Manager: Zac Caruolo PHASE 1 GUEST SERVICE BUILDING CD (REVIT)
RENDERING (LUMION)
A
B
C
6'-0"
22'-0"
3
4
1'-4"
3'-4"
John Ball Zoo Entry Valley
4
A130
A130
A120
6'-8"
3'-4"
1'-4"
3'-4"
3'-4"
3'-4"
lr
2'-0"
ENTRY VALLEY
RESTROOM BUILDING EXTERIOR
ARCHITECTURE LANDSCAPE ARCHITECTURE EXHIBIT DESIGN 833 chestnut street, suite 909 philadelphia, pa 19107
D E S I G N
Parking
t 215.564.0250 f 215.564.1154
1 A151
R1 107
106
105
104
PHASE 2
1
2
R4
7
9
A140
A140
R4
R2
New: blondish yellow Zoo
R3
FAMILY RR 106 46 SF
PHASE 1
IT & JANIROR CLOSET 104 38 SF
MOTHER'S ROOM 105 44 SF
4 EAST FULTON STREET, SUITE 200 GRAND RAPIDS, MI 49503
8'-3"
FAMILY RR 107 46 SF
REAL WOOD SIDING - FSC/LBC APPROVED
t 616.363.9801 f 616.363.2480
OS
1'-0"
OS
8 A140
2020 MONROE AVE NW, GRAND RAPIDS, MI 49505
1'-3 3/8"
1'-3 3/8"
OS
11
Aged: light amber brown
Entrance
t 616.456.9944 f 616.456.5936
A140
A130
12 A140 IT RACK 1'-6"
14'-8"
1'-6"
10 A140
Mataverde® Garapa Rain Screen Siding, Hardwood, FSC available https://www.mataverdedecking.com
R1
R2 2'-6 1/2"
2
ENTRY VALLEY
RESTROOM BUILDING EXTERIOR 2
2 A151
A140
MEN RR 103 216 SF
5'-9 1/2"
2'-6 1/2"
3'-0"
2'-6 1/2"
3'-1"
LBC MATERIAL STUDY REAL WOOD SIDING - FSC/LBC APPROVED
3'-1"
103B
1'-4"
3'-4"
R1
1'-4"
DRINKING FOUNTAINS, SEE P-DWGS
ERV-1
Visiting Path
5'-0 7/8"
10'-0 1/4"
K
A140
9'-5"
R1 103A
Stroller Rental
3
1 A140
1'-6"
A120
Aged: silver grey
C.L. STUD
2'-6 1/2"
5'-5 1/4"
3'-11 1/4"
3
New: light straw color to dark red/brown
2'-6"
New: blondish yellow
Western Red Cedar Siding, Softwood, FSC available https://www.realcedar.com
Aged: light amber brown
COMPOSITE SIDING - REQUIRE DECLARATION
HP-1 1
14'-0"
WATER SERVICE & GEO ENTRY
5'-0 1/2"
SLOPE 1/4'' / FT
C.L. STUD
A120
R3 UTILITY CHASE 102 104 SF
R3
Mataverde® Garapa Rain Screen Siding, Hardwood, FSC available https://www.mataverdedecking.com R1
New: light straw color to dark red/brown 1'-7 1/2"
3'-1"
3'-1"
3'-1"
3'-1"
3'-1"
BID PACKAGE #3 CONSTRUCTION DOCUMENTS
1
5 R1 WOMEN RR 101 257 SF
4 5'-3 1/2"
6'-8"
Revisions
R2
'-
6 A140
Date
* Skylight shown above are for reference only. Western Red Cedar Siding, Softwood, FSC available https://www.realcedar.com
A140
A140
R1
12'-0 1/4"
K
11'-0 3/8"
A130
101
Aged: silver grey
Submission
1'-4"
3
2'-6"
ENTRY VALLEY
COMPOSITE SIDING - REQUIRE DECLARATION
6"
R5
AU G U S T 201 9
IN PROGRESS PHOTOS
3"
Seal:
4 3'-10 5/8"
2'-6 1/2"
2'-6 1/2"
R1
2 A120
Nichiha® Fiber cement panels, Manufactured from a mix of Portland cement, fly ash, Sheet Title: silica, recycled rejects, and wood fiber bundles, https://www.nichiha.com
RESTROOM ENLARGED PLAN JBZ18ELV Drawing No.
Project No:
1
A110
Nichiha® Fiber cement panels, Manufactured from a mix of Portland cement, fly ash, silica, recycled rejects, and wood fiber bundles, https://www.nichiha.com
Project Manager:
ENLARGED FLOOR PLAN 1/2" = 1'-0"
GD
Scale: Drawn:
JW
Checked: MN ZC Date: 08/23/2019
A110
* Skylight shown above are for reference only.
21
ENTRY VALLEY
James Hardie® Fiber Cement Siding, https://www.jameshardie.com/products/hardieplank-lap-siding
James Hardie® Fiber Cement Siding, https://www.jameshardie.com/products/hardieplank-lap-siding
1
SANLIN INCITY MALL RENOVATION | Internship at Hassell Studio June 2017 - August 2017 | Built in October 2018 Team: Howard Lui, Yi Tang | Project Manager: Klevis Koco PHOTOS
ARCHITECTURE DD (CAD, RHINO AND GRASSHOPPER)
22
SANLIN INCITY MALL RENOVATION | Internship at Hassell Studio June 2017 - August 2017 | Built in October 2018 Team: Howard Lui, Yi Tang | Project Manager: Klevis Koco PHOTOS
ARCHITECTURE DD (CAD, RHINO AND GRASSHOPPER)
22
CATALOGUE OF OTHER WORKS | Architecture, Research, Hand Craft NETWORK ANALYSIS IN PITTSBURGH | ArcGIS Practice
THE 5TH ECOLOGY OF LA | 701 Landscape Studio
THE COLONIAL HISTORY OF COMMON BAMBOO | Study of Botanical Gardens
SEDIMENT MOVEMENT IN OCEAN CITY, NJ | Urban Ecology
IMAGINING THE CITY OF FEZ | Landscape Representation
POTTERY AND WOOD WORK
23
CATALOGUE OF OTHER WORKS | Architecture, Research, Hand Craft NETWORK ANALYSIS IN PITTSBURGH | ArcGIS Practice
THE 5TH ECOLOGY OF LA | 701 Landscape Studio
THE COLONIAL HISTORY OF COMMON BAMBOO | Study of Botanical Gardens
SEDIMENT MOVEMENT IN OCEAN CITY, NJ | Urban Ecology
IMAGINING THE CITY OF FEZ | Landscape Representation
POTTERY AND WOOD WORK
23
JINGBIN WU jingbinw@design.upenn.edu 267 530 8448 3600 Chestnut St, MB 1177 Philadelphia, PA 19104
