SherryDesign portfolio by Sherry Xi Li

SherryDesign

urban design / architecture / landscape / graphic + Key PROJECTS Dredgescape Maidan Living Machine Tissue City Weaving Strips green Shopping! Hy(brid)link Dancing Triangles

Dredgescape Miami dredge cycle

701 studio, MLA, PennDesign; Tutor: Karen M’Closkey

Locating on the Atlantic coast in Florida, Miami is an “Island City”, a “Port City”, and a “Dredge City”. By studying the existing dredge cycle, I am purposing a new one, using dredged material to create landscape with habitats restorations. “Dredgescape” will help to recover the damaged zone impacted by dredging. The idea is to connect the new lands with city by material transport and views. Finally, the dredgescape with different programs can be applied to more “gaps” in Biscayne Bay, to create public parks and habitats islands.

+ Port of Miami navigation

co ve

rin

dredging

site 04

Dredgescape Miami dredge cycle

site 01

site 03

site 04

site 05

site 02

Dredgescape Miami dredge cycle

EROSION

EROSION deposition and sediment accumulation

deposition and sediment accumulation

DEEP DREDGE

DREDGE CYCLE

DEEP DREDGE

BUSINESS

-restore

Gaps +

MIAMI +

+ +

DREDGE CYCLE

BUSINESS

JOBS

HABITATS

-- --

TUTTLE SEAGRASS MITIGATION AREA

SOIL FARM

1920 1920

DISPOSAL

1910 1910

ATTRACTION transport

Public Attractions

1900 1900

transport

MIAMI

SUNSET MARINE

1930 1930

DREDGESCAPE

Causeway Connections

SUNSET ISLANDS

1940 1940

DISPOSAL

VENETIAN ISLANDS

1950 1950

WATSON ISLAND MIAMI BEACH

Navigation

TUNNEL

Restoration

MAIN CHANNEL

GO VE

DISPOSAL SITE

1980 1980

ARTIFICIAL REEF MITIGATION AREAS

Above Sea bottom Below

1990 1990

utility zones

2000 2000

Port city

Dredge city

2010 2010

Soil farm

Store extra material for the future construction

1970 1970

4,000,000 CY

FISHER ISLAND

BERM FOR VIRGINIA KEY

+ Create diverse landscape along the causeway

MEN

T CU

DEEP DREDGE

Restore the damaged mirco-enviroment

Attraction

1960 1960

PORT OF MIAMI

Deep dredge Miami port tunnels

connEctions Land route: causeway lines Water route: ship turning basin dash lines Tourist boats Yacht dots

Main Turning basin d=1600’

Ma -36 in sh ’ ip

Causeway

landmark/ opEn spacE

metrorail grEEn spacE

Purposed Metrorail Ship Navigation Tourist boat Ferry

JunglE island

Purposed Ferry

BicEntEnnial park

Accessibility

cHildrEn’s musEum

programs BaYFront park

Related to open space Programs:

sEamans park

Gaps

Landmarks

Open space

Habitats restoration Dredged material treatment Soil farm Park metrorail station Canoe docking Tourist centre Sea plane base Ferry Existing programs

sediments movement patTern

park

patH

cHildrEn’s musEum

tHEmE park

EXISTING PROGRAMS Park

Path

Children’s Museum

Theme park

purposEd programs

PURPOSED PROGRAMS

Programs

STRUCTURE

FORCE

CONNECTION

SUB-DIVISION

Parallel lines

Connected system

Islands

Connected system

Parallel lines

dredgescape

Islands

Geotube units or containers are fabricated with special high strength woven geotextile and are a very cost effective option in dewatering applications, dredging and shoreline protection applications. The high strength geotextile allows Geotube units or containers to be manufactured large enough to hold over 900 cubic metres of material each. Typical sizes for Geotube units range from circum ferencs of 2.3 metres (7.5 feet)to 27.4 metres (90 feet) and lengths from 30 metres (98) to 60 metres (196). Other sizes are available.

geotube

geosynthetic material, construction fabrics. They are made from longlasting synthetic fibers bonded to form a fabric. They are primarily used for separation and reinforcement over wet, unstable soils. They have the tensile strength needed to support loads and can allow water, but not soil, to seep through.

geotextile

main structure: transport pipes

secondary structure: outlets

channel width (dredging limit)

new slope

Deep dredging

dredged material dock

purification

DredgedMaterial

4,000,000 Cy

cleansing tanks

soil pond

geotube System

landform

Land Reclamation

Soil farm filling with dredged material

Sand dune Cores

Sand

Sand Clay

Rock

Clay

Silt

Diversion Dikes

Wetland Creations Under water structure Groynes

Island Creation Break waters

accessibility

Contaminated Soil

Rock

water level 0â&#x20AC;&#x2122;

geotube framework

Dredge

Land reclamation

TIME LINE 1926

1926

Watson island was created by land reclamation with material dredged from the ship channel.

1994

Macauther Causeway was still under construction, Watson island only functioned as docking.

2002

Construction of AA arena Tourist docking Children’s museum

2006

Adrienne Arsht Centre for the Performing Art Jungle island Circus in bicentennial park

1990

2002

2000

Deep dredge

2005

2010

2012 2013 2014 2015 2016

4 towers

Cleansing the dredged material

Develop other 3 parks Soil farm For extra dredged material

2020

2030

Support tubes - Current flow attractor Define the elevation difference - Wind + sunshine attractor

2040

Transport system Floating pipe connecting to the other 3 parks from the treatment centre

2050

Creating land With different programs Planting strategy 2060

2060

Sea level = 1.75’ After 50 years, geotextile of geotube will degrade, and Most part of dredgescape will under water. Soil farm will become the refuge for Watson island

2070

2080

2090

Topographical Model

2100

2100 Sea level = 5’

2014

support tubes: current flow attractor define the elevation difference: wind + sunshine attractor

2014

transport system floating pipe connecting to the other 3 parks from the treatment centre

2015

develop 3 parks

2014

creating land with different programs planting stratege

2016

soil farm for extra dredged material

2060

sea level = 1.75â&#x20AC;&#x2122; After 50 years, geotextile of geotube will degrade, and most part of dredgescape will under water. soil farm will become the refuge for Watson island

Time Cycle

EET

S TR AI LS

PA TH S

G LIN IAL FIL TER MA

OUTLET

T OR IPES SP P AN UBE R T OT GE

T AN

coral algea rass seag e rov g n ma GE D TE RA

AL OC fis CUPINh G

birds

ANIM

OT U

NT AI

wet

PIL

wet +dry

Cyclical landscape in Dhaka, Bangladesh

Maidan living Machine 704 studio, Advanced Design Research Laboratory, PennDesign; Tutor: KieranTimberlake; Partners: Reva Meeks, Jamee Kominsky Unoccupied most of the year, the site is impacted by industrial effluent ponds, lead polluted dust, and human waste which contaminate the adjacent river. During the annual ijtema, a six-day gathering of 5.5 million prayers, the site experiences intense usage. This cultural ritual requires water for ablution, leading to large deficit each year. Using cyclical thinking in rhythm with the siteâ&#x20AC;&#x2122;s changing uses over time, our project seeks to turn these environmental stress into something positive, converting waste into energy and the site into a platform for waterâ&#x20AC;&#x2122;s collection and cleansing. The site becomes a public amenity, connecting city to maidan.

Event: 6 days BISWA IJTEMA=425,843 m2 5,500,000 persons 12p/m2

BUILDING MATERIAL

DHAKA

Event

DHAKA

WASTE SAF LINES

TEM A WA IJ

AN M HU

BIS

CONSTRUCTIO

45% INTOwater

SAND / IN

2M 6M

FILL

SITE

SOS Communications

Bata Shoe Factory Cr

T EMEN

NH4

Ashraf Textile Mill

50% lack effluent treatment

L SET T S D PON

MONSO ON SEAS ON TUBE WELL S

+++ ++ + + +

+ +++

++++ +

++++

+ +

+++++

+ +

RIVER WATER

+ + ++ +

911,980 square metres [225 acres]

+ +

+ + +

ABLUTION TANKS

BIOGAS

CESSPOOLS

TUBEWELLS

RAINWATER COLLECTION

BIOGAS

toilet

SEPTIC TANK

RAINWATER COLLECTION

Brown Field

200,000 ACRES lost to infilling every year

32.36 square kilometres [12.5 sq mi]

99% of tongi children have lead poisoning

Compost

AS W

ess

c ro lp

SITE

TONGI

a ic

POTABLE WATER

5,500,000 Attendees

Industrial side + ijtema side

1463.60 square kilometres [565 sq mi]

BAMBOO+JUTE

ABLUTION TANKS

+ +

CESSPOOLS

TUBEWELLS

surface scum

toilet Filter

RAINWATER COLLECTION

ABLUTION TANKS

BIOGAS toilet

Filter

CESSPOOLS

TUBEWELLS surface scum

Matrix

Infiltration RAINWATER COLLECTION

Matrix

Overflow Infiltration liquid

high flow pump

Matrix

Infiltration

Matrix

liquid sediment

surface scum

bacteria nitrates metals salts

Filter

Matrix

Infiltration

liquid

Matrix

Overflow Infiltration high flow pump

Ablution tanks

PERMANENT TOILETS

CAN THIS LAND BE USED AS A COLLECTION AND CLEANSING FIELD TO PROVIDE WATER NOT ONLY FOR THE EVENT BUT ALSO FOR THE CITY?

SEPTIC TANK

surface scum

bacteria nitrates metals salts

PLASTIC

Matrix

Overflow Infiltration

CESSPOOLS

TUBEWELLS

sediment

Filter

Matrix

liquid ABLUTION TANKS

BIOGAS

sediment

high flow pump

SEPTIC TANK

toilet

Overflow Infiltration

Infiltration

SEPTIC TANK

Begin to go dry 1/2 way into the event

TUBEWELLS CESSPOOLS COOKING PITS

COW DUNG

PARK

sediment bacteria nitrates metals salts

bacteria nitrates metals salts

collection

3 ton/day

EXISTING CYCLES

recycle industry

ablution tanks

selling

5 ton/day

cooking pits

plastic

feeding

washing

collecting

cooking

drying

waste

washing

selling

drying

brown field

PROPOSED CYCLES

river water

waste

river water

waste

compost

brownfield

potable water

compost

building material

garden

waste

river water

potable

compost

brown

compost

building material

city

event

compost

field

building garden

material

potable water

garden

CYCLICAL PROCESS

N AS

PE m on RIO th D s) (3-

r 24 h S D N PO

SING

EAN

- CL each

RECIRCULATE + ST ORE

REPLANT

HARVEST

waste -

CUT + FILL (SOIL REMOVAL + CAPPING)

S 3YR

E IAT ED REM Y TO PH

river -potable

brownfield - garden

MO W NSO AT ER ON SE CO AS LL ON EC TI O N

on th

BROWNFIELD to GARDEN reduction in heavy metals per 14 weeks

RIVER WATER to POTABLE WATER 202,100,000 gallons cleansed per year

ial

ION

CUT + FILL (SOIL REMOVAL + CAPPING)

REPLANT

M B ON JU AMB SOO TE O N SE O G SEA ED RO SO W (4 TH N -6 PE m on RIO th D s) (3

-4

on th

20,625 tons generated per event

N S

Y RIT TU A M s) ear y 5 M ( B ON JU AMB SOO TE O N SE O G SEA ED RO SO W (4 TH N -6 PE m on RIO th D s) (3

-4

WASTE to COMPOST

G AKIN / SO

CR EAT

AS SE

WA STE

CR EAT WA STE

ays) (20 d

REPLANT

RIT

U AT )M s r ea (5 y

I NG RE T T

AS ON

N ys) a (20 d

G AKIN / SO

(2-3 days) DRYING

CUT + FILL (SOIL REMOVAL + CAPPING)

(3-4 months before wet season) HARVEST

(2-3 days) DRYING I NG RE T T

AS SE

AS ON

PL AN TIN

PLICA TIO

PL AN TIN

MO W NSO AT ER ON SE CO AS LL ON EC TI O N

FIELD AP

PLICA TIO

MO W NSO AT ER ON SE CO AS LL ON EC TI O N

FIELD AP

G NSIN

(3-4 months before wet season) HARVEST

- CLE

RECIRCULATE + ST ORE

each DS

GR EA t L IB es -ED harv N O e T-N for OS s be P M th CO mon LE -4 DIB T-E E - 1yr S O UR MP CO ICULT R G A

TU UL

brownfield - garde

S 3YR

compost - building material compost - building material

E IAT ED REM Y TO PH

ION

waste -compost

river -potable

on th

COMPOST to BUILDING MATERIAL 1,000 tons of jute per event

able

Industrial clusters

Sewage treatment plants

EVENT 2 METERS

deployability

DRY 4 METERS

ROADWAY CISTERN FOR TONGI

10 HOLDING TANKS 666,360 M3 [90% OF TOTAL] CIRCULATED THROUGH TONGI

WATER GATES FOR TONGI

WATER TANKS

HOLDING TANK 74,040 M3 [10% OF TOTAL] 1276M [LENGTH OF SIDEWALK] X 7.6M2

ABLUTION HAND PUMPS

HOLDING CISTERN I

SIDEWALK CISTERN FOR IJTEMA

ABLUTION 36,911 M3 100M LENGTH X 12M2

REPLANT RYING ays) D ING (2-3 d OAK S ) / G ach T TIN S hr e s) RE (24 POND day G (20 SIN Y AN RIT CLE U AT s) M r a e (5 y

FLOOD 9 METERS

MONSO ON SEAS ON FIELD JUT APPLICATIO N PLA E SEED (4-6 NTIN mon GS ths) EAS W ON BA AT PE MB ER C RI O OLL OD O EC TIO (3 GRO -4 N m WT on H th s)

WET 6 METERS

STORAGE AERATION fishing-bata indian mustard kariba weeds water hyacinth smooth water hyssop alpine pennycress common bent

OZONE DISINFECTION

STORAGE AERATION

KILL REMAINING PATHOGENS

OZONE DISINFECTION

heavy metal remove plants

AEROBIC TERRACES

RHIZOFILTRATION

WATER TANKS

WATER TANKS SUBMERGED COLLECT / CLEANSE FOR IRRIGATION AND AQUIFER RECHARGE

RUNNELS + SUBSURFACE FILTRATION

COLLECT RAINWATER FOR IRRIGATION AND AQUIFER RECHARGE

SAND FILTER

SUBSOIL ANAEROBIC

SETTLING POND

FINE SAND FILTER

fishing-bata indian mustard kariba weeds water hyacinth smooth water hyssop alpine pennycress common bent

FINAL POLISHING

KILL REMAINING PATHOGENS

heavy metal remove plants

AEROBIC TERRACES

SEDIMENTATION BASIN

RHIZOFILTRATION

SLUDGE USED IN FOREST LANDFILL

WATER TANKS

INFLUENT TANK LOW LIFT PUMP

SUBMERGED COLLECT / SCREEN FOR SURFACE WATER TREATMENT / USE

RUNNELS WATER TANKS SUBMERGED COLLECT / CLEANSE FOR IRRIGATION AND AQUIFER RECHARGE

QUANTIFICATION

SEASONAL LANDSCAPE

HARVEST

TONGI KHAL

E IAT

REM

Y TO PH

ATE + ST g) ORE HARVEST (3-4 month s before we t season)

RECIRCULATE + STORE

E IBL t) -ED es ON arv N h ST URE ore O f MP ULT be CO RIC nths AG mo 4 ( E IBL -ED 1yr) OST URE ( MP CO ICULT R AG HARVEST

WAT ER DISP ERSE WA STE D COLL ECTE D

CUT + F + capp ILL in

moval

RECIRCUL

ABLUTION HAND PUMPS

(soil re

TONGI KHAL

EAT IO

ED (3 IAT YR E S)

WA S

PH YT OR

HOLDING RUNNELS IRRIGATION FOR PHYTOREMEIDATING GRASSES / DUST MITIGATION

SUBMERGED COLLECT / CLEANSE FOR IRRIGATION AND AQUIFER RECHARGE

WATER TANKS

HOLDING TANK 74,040 M3 [10% OF TOTAL] 1276M [LENGTH OF SIDEWALK] X 7.6M2

WATER TANKS

HOLDING TANK 738,220 M3 1276M [LENGTH OF SIDEWALK] X 24M2

HOLDING CISTERN II

WATER GATES FOR TONGI

SUBMERGED COLLECT / SCREEN FOR SURFACE WATER TREATMENT / USE

COLLECT RAINWATER FOR IRRIGATION AND AQUIFER RECHARGE

SAND FILTER

SUBSOIL ANAEROBIC

SETTLING POND

FINE SAND FILTER

FINAL POLISHING

SEDIMENTATION BASIN SLUDGE USED IN FOREST LANDFILL

INFLUENT TANK LOW LIFT PUMP

TONGI KHAL

DRYING ING SOAK ING / NDS RETT G PO TY NSIN URI CLEA MAT

B GR AMB W OW OO CO AT T LL ER H EC TIO N

ED SE

WET

FLOOD

BAMBOO GROWTH WATER COLLECTION JUTE SEED

DRYING RETTING / SOAKING CLEANSING PONDS MATURITY

6 METERS

9 METERS

ITY

TUR MA

FLOOD

DRY

DRYING RETTING / SOAKING CLEANSING PONDS MATURITY

PHYTOREMEDIATE RECIRCULATE + STORE HARVEST

12 METERS

4 METERS

HARVEST

ITY

TUR MA

EVENT 2 METERS

WATER DISPERSED WASTE COLLECTED

WET

6 METERS

FLOOD 9 METERS

DRY

4 METERS

EVENT 2 METERS

unit: 16m x16m

river water collection system

courtyard

groups

bamboo platform

vegetation soil

bamboo frame oil drums

bamboo structure

water hyacinth

bamboo structure

water hyacinth

ION

Pedestrian bridge

Compost toilet

Treatment ponds

ED (3 IAT YR E S)

Water gate madrasah Bus stop

saf lines

WA S

PH YT OR

Boat dock

CR EAT

Ablution tank

+ STORE HARVEST (3-4 month s before we t season)

1 low

i ly

ecos

yst

st sy

DEPLOYABILITY

Subsurface filtration

i ns

Water settling

7 6

MONSO ON SEAS ON FIELD A PPLIC JUTE ATION S EED PLA ( NTI NG 4-6 mon SEA ths) SON WA BA TE PE MB R C RI O OLL OD O EC TIO (3 GRO -4 N m WT on H th s)

Aeration bio-purification Pathogen removal 5 Heavy metal removal 4

UV filtration Fishing ponds Sand filtering

REPLANT RYING D ) s y a KING (2-3 d A O /S h) G c N a I e T hr NDS RET ) 4 s 2 y ( O da GP (20 N I S AN E ITY L R C U AT M rs) a e (5 y

-E st) e N rv O -N E e ha T OS TUR efor P M UL s b O C RIC nth AG mo (4 BLE r) I D -E 1y OST URE ( P M CO ICULT R AG HARVEST

moval

CUT + F + capp ILL ing) RECIRCU LATE

(soil re

BL DI

Phase 02

Phase 03

Eco-economy Land

601 studio, MLA, PennDesign; Tutor: Christopher Marcinkoski, Todd H. Montgomery

“Tissue City” focuses on reactivating the “forgotten” site at urban scale. Mixed up with modern industry, research, business, residential, commercial, recreation and civic, the site is transformed into an accessible Eco-economy land. “Urban Tissue” has the components of transportation, waterways, green system, topography and landscape facilities. Mutli-programs are organized with bands. Cutting through these bands, tissue builds up a strong structure to connect this isolated site with other city elements. Special water management strategy is also adopted.

Phase 04

COMPONETS OF TISSUE

Phase 01

LANDSCAPE FACILITIES

05. RAIL

TOPOGRAPHY

04. SCHUYLKILL EXPRESS

WATER

03. WATERFRONT PARK

GREEN SYSTEM

02. CORRIDOR

INFRASTRUCTURE

TISSUE CITY*

01. BOULEVARD

ca t

pi e

Green boulevard

Civic corridor

Waterfront terrace

Green loop

Under space of highway

1 2

ys al

t f o

e u s is

Xi Li | PortPoLio - Apply for 2012 Summer internship

11 9

15 7

1. Rail park 2. Water stage 3. Waterfront gallery 4. Industrial history museum 5. Sculpture park 6. Sports field 7. Intersection bridge 8. Pedestrian link 9. Intersection bridge 10. Waterfront platform 11. Waterfront terrace 12. Waterfront connection 13. Platform for railway 14. Cemetery connection 15. Railway park 16. Waterfront garden 17. Docks 18. Water treatment wetlands

116

60 40 22

50 38

40 22

8 2

-6

Master plan of catalyst 1

-6

TISSUE'S PROGRAM + MATERIALS RAIL PARK tanks

trains

tracks

bridge

CULTURAL

WATER STAGE tower

terrace

natural edge

stage

waterfront gallery

industry history museum

outdoor exhibit

SPORTS FIELD scuplture park

tennis

INTERSECTION BIRDGE path

retail

cafe

EVENT LAWN pedestrian link

WATERFRONT PLATFORM platform

cafe

terrace

LINK TO CEMETERY wetland

pedestrian bridge

platfrom for railway

cemetery

trolley station

al ory st hi m u se um

intersect io

n id br

t in

ection ers b

r g id

onnecti on

bridg industri

w a

gallery nt

o water fr

tage

rs te

wate r fr

Weaving Strips LA Studio 2009; Tutor: Nicholas Roberts Southeast Univeristy & Woodbury University; Partners: Joseph Feld, Emmanuel Ramirez In Jiangxingzhou Island, bridge and metro are under construction. These new artificial facilities definitely change the natural system. Our proposal focuses on the bridge landing area. With the weaving strips containing the natural elements, energy on site and recycled construction materials, we aim to recover the wound caused by the cut of bridge. The progress of landscape healing will be realized in phases.

Bridge

Partition The bridge cuts the site into four different parts and makes it hard for the locals to travel around as well as breaking an agriculture site into four pieces.

Fields

Use new topography of the site to make bridges and underpasses to reconnect the whole site into one again and allow for easy pedestrian access. Problems Caused by the bridge

Bridge landing area Villages

SOLUTION Jiangxingzhou Island

Nanjing Roads System Heavy traffic The Island is not designed to support the large amounts of traffic entering.

Weaving strips is to solve the problems stated before by weaving natural systems, materials, and energy together with the bridge landing. The current topography of the site, such as the pattern of fields, scales of villages, and the thickness of plants can be divided into several certain scaled strips. We try to weave those strips above or under the bridge to keep the separated parts remain connected. Those new strips would be structures with functions, or landscape with crops.

Wet lands Add a parking structure for the traffic entering the island and introduce a new type of public transportation to control the amount of cars driving around. Waters

The original site

Invaders The importation of materials on the island will make the current materials useless.

Use materials on the island by mixing small amounts from outside materials to make strong composite materials.

panel

pipes

solar

wind soft fabrice water fragment

plants volume Methane

The natural system description

thickness

pond

roadside trees canal

35 - 41.5m

cash crop - reep

0.5m

cash crop - grape

1 - 2m

wetland plants

1 - 3m

Yangtze River

materials and energy Recycled materials and energy Some materials are being left when the bridge is building, we use Estimated systems to select the more economical and environmentally friendly to reuse them in other projects. Estimated systems 1. Whether generate oxygen into the atmosphere when the material is being prduced . 2. Whether causes CO2 emissions. 3. Whether use raw material cannot be revitalized. 4. Whether it can be reused. 5. Whether it can be decomposed in a short time in natural environment. 6. Whether the poison gas will be generated during the decomposing process. 7. Whether it will be helpful for energy saving. Low coefficient heat exchange.

waterfrotnt

Shores along the hill produce a smooth river bank on each side.

cover the bridge

Each side of the freeway will be connected above and below with the topography of weaving strips.

topography

The roads of the site produces a mountain topography.

wind pattern

In summer, wind comes from the southeast. Holes in the valleys are made as heat chimneys.

weaving process

WATER COLLECTION The lower parts of this gaint form become rain water collection and purification ponds.

P Ph has Ph ase e... 04 ..... Ph as ... _2 as e 0 02 .. 3 e P 0 02 _20 Ph ha 1 _ 20 8 Ph as se 1 0 P a e 5 1 Ph ha se 02 _20 as se 03 _20 09 e. 04_ _20 15 ... 2 ... 02 18 ... 0 ...

HARMS

Big-box stores have harmed our cities, our environment and our entrepreneurial culture: •Occupy more than 50,000 square feet; •Require large sales volumes; •Rely on shoppers; •Include acres of parking; •Loss of open spaces and natural resources; •Provide no culture, products and identity.

NONEFFECTIVE

Only 45-50% of volumes are for sale.

THE Future OF

green Shopping! 2010 UA Creation Award • International Ideas Competition of Commercial Architecture

As a new kind of business model, boundless network for future shopping connects consumers and products economically, rapidly, effectively and authentically. It decentralizes the model of enormous traditional commercial typology into series of real experience. Breaking the limit of commercial buildings, real-life shopping can happen anywhere at anytime.

iShop

green Shopping!

BREAK UP + REORGANIZE

Break up volumes for sale of Big-box stores and reorganize retail by providing a new kind of shopping experience.

E-MALL* sports dress Price: $19.99 Size: Sizing info Color: Multi

DATA BASE

iShop

Walnut St. and 34th St.

User 1, 2, 3, 4 ... Loading

Spotlights exhibit + Fitting rooms

NEAREST KIOSK

NEARBY USERS

KIOSK

is based on App, online database, express deliver and kiosks (spotlights exhibit + fitting rooms). Consumers can experience shopping anywhere at anytime. The mall is dead, and then our cities are reactivated by public activities. search now

data-base

shop now

Nearest Kiosk

Information Interaction

iShop

shop now

HYBRID LINK

WAL

QUEENSWAY URBAN INTEGRATED CONNECTOR Queensway Hybrid link is an elevated railroad reclaimed as an extraordinary public space, a connector of neighborhoods and a new model for the ‘greening’ of the urban environment. It is creating a new way of seeing the city, is recognized as an icon for innovative design and sustainability and is an inspiration to other cities - proof of the dramatic change that landscape architecture can have on the quality of life in cities. Hybrid LINK is an new urban integrated collection which seeks to revitalize Queensway community by creating an incremental urbanism of connections that stitch together a divided community. The goal to make the Queensway a success is to engage the local community and to empower them to take ownership of the disused infrastructure. Hybrid LINK is not an isolated abandoned railroad, nor is another highline park. It will be an integrated urban collection belt, which contain commercial development, complex urban ecological enhancement, community service, leisure and social and cultural development in urban communities intersection.

EEN SYSTEM GR

MIX-USE

MMUNITY CO

BR OO

KL Y FE N

CT SG

GA RE TE CR WA EA Y TI ON

PR OS

Hy(brid)link QUEENSWAY URBAN INTEGRATED CONNECTOR

MANHATTAN CENTRAL PARK

REGIO URBA FORES TRAN

ENYA's 2014 Biennial Ideas Competition Partners: Jun Zhou

MOBILITY

POTENTIAL ENTRIES

EXISTING PROGRAMS

PROGRAM CONNECTION

BUS PARKING ENTRY

GREEN SYSTE M

MANHATTAN CENTRAL PAR

VIADUCT ENTRY

COMMUNIT

MIX-USE

URBAN CONNECTOR

5 PARKWAY ACCESS

OZONE STATION ENTRY REUSE

MOMENTS

CONNECTIONS

Y S

AY N W TIO TE EA GA CR RE

YN TS KLEFFEC OOECT BRROSP

LI EN

ENTRY

CONNECTIONS

VE YA

MOMENTS

THICK CANOPY

LE VAB MO TFORM A L ED P YCL REC L I A R

ER T

5 PARKWAY ACCESS

LIB

VIADUCT ENTRY

URBAN CONNECTOR

RETAIL KIOSKS

OZONE STATION ENTRY REUSE

EVE

N T S L AW N

LIBERTY AVE ENTRY

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event park

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main entry MOVIE DECK

jogging path light forest

event lawn green canopy main entry

mobile platform railway plaza

art plaza

bike lane

100th St.

ORCHARD PARK roof garden

public parking lot

main entry

potential games festival

signial bridge view deck

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close for potential big event

99th

101st Ave.

103rd Ave.

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South Gate Ruins museum of Yangzhou city wall

Dancing Triangles Design document, Construction document, Landscape design Architectural Designer, Urban Architectural Lab, China (www.ualstudio.com)

Representation of layouts

Representation of entering path

+0.00 plan

Since its first built up in Tang Dynasty, the Barbican of Yangzhou has been rebuilt many times. The zigzag entering path remained same. The historical transform of ruins are overlapped layouts in different time periods. To express those layers, the museum is enclosed by a light-weight portal frame structure. The triangle shapes respond to the double pitched roof buildings in the neighborhood. The inside exhibition space sheltered by the folding surface is arranged to clearly display the entering path.