PORTFOLIO
JINGXIAN LU Landscape Architecture
EDUCATIO N Tongji University, Shanghai, China
2013 - 2017
Bachelor of Environmental Design + Optional course: Sustainable design Public space design focus on air pollution + Thesis: Indoor air quality
J I N G X I A N LU
Wageningen University
2018.2 - 2018.8
Pre-master of Landscape Architecture and Planning
IN FO
Wageningen University
Jingxian Lu
Name
14.05.1995
Date of Birth Nationality
China
Languages
English, Mandarin Chinese
Portfolio
issuu.com/517749162/
KE Y QUAL I T I ES
SPECIALIST
INNOVATION
CREATIVE
DEPENDABLE
TEAM PLAYER
2018.9 - PRESENT
Master of Landscape Architecture and Planning + Optional course: Climate-responsive Planning and Design Restoration Ecology + Thesis: Flooding safter for the poor
SKILLS LANDSCAPE DESIGN
SKETCHUP
ADOBE ILLUSTRATION + PHOTOSHOP
LUMION
ADOBE INDESIGN
AUTO CAD
SKETCH
ADOBE PREMIERE PRO
AWA RDS & EXH IBITION Top 10 team, WUR student challenge urban greenhouse
2020
Excellence award,
2015
Exhibition & curator,
2014
LONGFENG JADE DECORATION DESIGN COMPETITION By China Italy design innovative center & Jiangxi jade studio
SHANGHAI CREATIVE CITY EVENT-TONGJI DESIGN WEEK ‘In my eyes’ Summer practice exhibition
CON TAC T +310633230397
EXTRACURRICULA R ACTIVITIES Voluntary activities, Wageningen, Netherlands
2019
Volunteer of Mid-autumn festival party
lujingxian1995@gmail.com
Deputy minister, International Liaison Department
2014-2015
Social voluntary activities, Shanghai, China Volunteer of many social activities such as art classes for disabled and children, school performance
2013-2016
of Youth League of D&I college in Tongji University
6708GA, Wageningen bornsesteeg 1 17b09
CONTENTS
01
Flood safety for the poor
02
Agro urbanism
11
03
Park of life
17
04
Thinking outside of the grey boes
24
05
Herbtopia
28
06
Water storage leisure line
31
Other works
33
1
Blue-green infrastructure design for sustainable shantytown communities in Shanghai
Regional design in the Salland Oak Land
Urban farming park in City Almere, Netherlands
Transition for the business park Amsterdam Osdorp
Urban greenhouse in Dongguan, China
Reigonal design for the MRA area
01. FLOOD SAVETY FOR THE POOR
Blue-green infrastructure design for sustainable shantytown communities in Shanghai PROJECT TYPE Individual Graduation Project
PROJECT LOCATION Shanghai, China
PROJECT TIME Spring, 2020
KEY WORDS
PROJECT OBJECTIVE
# Flood risk reduction
This project focuses on contributing to the exploration of new blue-green infrastructure
# Sustainable community
(BGI) system which can be used in the sustainable communities por poor people. Through
# Low-income people
the test of case study in Shanghai, the design will try to increae the urban resilience
# Blue-green infrastructure
and reduce the flooding risk. At the same time, problem of environmental quality and occupation of low-income groups will also be solved. Ultimately, the goal is to help other
1
INSTRUCTOR
coastal urban communities in China, and even low-income people in coastal cities around
SH (Sjoerd) Brandsma MSc
the world, to cope with the future flooding risk.
FLOODING RISK The global coastal cities are currently facing the risk of flooding due to climate warming, and they need to improve the capacity of disaster prevention and mitigation facilities. Shanghai has been rated as the most risky region among the nine coastal cities, and the low-income residents in the city has a poor living environment (shantytown), lack of blue and green infrastructures, and poor economic capacity, making them difficult to cope with flood risks.
DESIGN TARGETS
Employment
Open space
Forest & wetlands
This project will create a new BGI system which can be implemented on urban, block and private scale.
Economic benefits
Flood mitigation benefits
Recreation benefits
In order to generate the new bluegreen infrastructure system, suitable interventions will be selected via different design principles from three aspects of flood safety, employment and cultural identity.
Filter BGI General functional principles
Landscape principles (shantytown)
10KM
Flood Safety
0
Cultural identity
Chapter 4
DISCONTINUOUS BGI ALONG THE HUANGPU RIVER
N
Cultural principles Flood risk
Communities for the low-income residents
Chapter 5.2.2
Low
Reduce flood risk
Landscape principles
High
More employment opportunities
Landscape principles of design site
Benefits of BGI
Check
Farmland
Preliminary Preliminary functional design principles principles
CONCEPT
OVERLAP OF FLOOD RISK AREA AND SHANTYTOWNS
Preliminary functional principles
SITE CONDITIONS
the Yangtze River Urban building area
Green Infrasturecture
DESIGN PRINCIPLES
Green Infrasturecture Blue Infrasturecture
Downtown
Huangpu River
Main Blue Infrasturecture
ONMENT VIR
CULTURA L
Farmland
ENTITY ID
D SAFETY EN OO
Green Infrasturecture
Blue Infrasturecture
FL E
Farmland
M
Farmland
Green Infrasturecture
PLOY M EN
T
Green Infrasturecture
Blue Infrasturecture Farmland
Blue Infrasturecture Farmland
Landscape principles
Farmland
Maintain high density
Increase average living area
Widen narrow streets
Better drainage system
More public entertainment space
From shantytown From design site
Farmland Blue Infrasturecture Downtown
Along
the river
Public green space Forest Farmland 0
N
Along
≼ 5M
the road
10KM
LOW-INCOME HOUSING EXPANDING TO THE SUBURBS
ONMENT VIR
Water, roads, and housing distribution
Housing groups
Private or wide boundary
Height standard
Elements in green band at riverside
More income
Water usage habits
commercial street and market
More communication
Maintain the original community vitality
ENTITY ID
D SAFETY EN OO
CULTURA L
Filter
T
PLOY M EN
Workers' Village 1950-1990
Cultural principles
Combine
FL E
M
Shanty town
Affordable housing ONMENT VIR
Filter
CULTURA L
D SAFETY EN OO
Combine
ENTITY ID
D SAFETY EN OO
CULTURA L
ENTITY ID
ONMENT VIR
FL
Affordable housing
FL T
E
PLOY M EN
Preliminary design principles Downtown
PLOY M EN
T
E
M
M
Preliminary functional principles (BGI)
General functional principles (BGI)
Shanty town Workers' Village build from1950 to1990 Affordable housing areas build from 1990 to 2010 Affordable housing areas after 2010 N
0
10KM
2
The information are from the analysis of shanty town in Yangpu district in Shanghai.
LIFE IN SHANTYTOWN SHANTYTOWN HISTORY
CHARASTERISTICS OF LIVING CONDITIONS
Inaccessible BGI
Inaccessible green belt along the road Inaccessible green belt along the road
Inaccessible green belt along the river
Inaccessible BGI
Wall boundary between Inaccessible green belt shantytown and outside along the river Low self-built shanty town
Wall boundary between shantytown and outside Low self-built shanty town
Narrow road
Narrow road
Low building Low building
High density Inaccessible green belt along the road
Inaccessible BGI
High density
Inaccessible green belt Inaccessible green belt along the river along the road
Wall boundary between shantytown and outside Low self-built shanty town
Wall boundary between shantytown and outside Narrowshanty road town Low self-built
Low building
Low building
RESIDENTS' BEHAVIOR
Green publicspace
Clear boundary One of the entrances to the shanty town
High density Clear boundary Poor drainage system One of the entrances to the shanty town
Inaccessib along the
Bedroom
Poor drainage sys
8500mm
Green publicspace
Inaccessible BGI
Bedroom River boundary
River boundary
Sharing living room
NEIGHBORHOOD RELATIONS Renters
Green publicspace
Service industry
Renters life
Indigenous people in shantytowns
ren
ne
ces
sit
ies
t
street pedlar
3
The living habits of residents provide potential possibilities Clearsuch boundary for BGI design, as water One of the entrances to the shanty town usage and home farming. The occupations of some residents have formed the special identity of shantytown, which is an active commercial street. life necessities
Landlord
as such ry ice elive Serv ress d exp t ren
(Fa
700-2400mm
Poor drainage system
Green publicspace
River boundary
One of the entrances to the shanty town
Clear boundary
Besides, there are problems such as small area and insufficient function in the shantytown. Section A-A
River b
NEW BGI SYSTEM
DESIGN ON THE URBAN SCALE
STRATEGY
OVERVIEW Industry
New urban centers in the suburbs
Farmland Industry
Farmland Existing Farmland Existing Industrial Areas New urban center in the suburbs
FOREST & WETLAND
Forest and wetland Rice fields River Sustainable communities Forest and wetland Existing green infrastructure Rice fields Existing River blue infrastructure Sustainable communities Existing green infrastructure
FARMLAND
Existing blue infrastructure
Forest and wetland Rice fields River Sustainable communities Existing green infrastructure Existing blue infrastructure
To better integrate the BGI with the site design and landscape elements, six kinds of modules are reorganized. In the design on the urban scale, possible location of sustainable communities for poor people will be established at the upper and lower reaches of Huangpu River where is the intersection of agricultural, industrial area, and the new urban areas. Forest and wetland Forest and wetland Rice fields Rice fields River River Sustainable communities Sustainable communities Existing green infrastructure Existing infrastructure Existing green blue infrastructure Existing blue infrastructure
4
SELECTION OF THE SITE
DESIGN ON THE BLOCK & PRIVATE SCALE ng ges Exisiti tural villa ul agric Exisiting Farmland
Surrounding University Greenband
Exisiting river
Rent
Forest & Wetland Storage & Purification
Farmland & Ditch
Park Storage & Purification
Ditch Recreation
Exisiting high-rising community
Water Resource
Income
Residents Existing farmland
Water Resource
Existing forest
Existing communities
Income
Water Tank
Huangpu River
College town
Floating Market
Recreation
Exisiting river
Design site
Recreation
Surrounding Residents / Tourist
Dock
Wetland
Farmland
Park
Water Tank
Forest
Street Tree
River
Floating market
Farmland & Ditch
Water Tank
Floating Market
Ditch
Housing type
Dock & Step
Income
Commercial Street
Dock & Step
Self-organized
Income Commercial Street
Recreation Recreation
Public space / Market
Workshop
Commercial Street
Dock & step
Road
Workshop
Income
Residents Water Resource
Housing for low-income residents
Per capita living space ≼ 10 square meters
High density
(Jinshan District, 2019)
Workshop
Recreation
Shopping
Surrounding Residents / Tourist
op
1
2
1
ym plo
ym plo
Em
0
Em
0
saf ety
Park
2
Flo od
Flo od
saf ety
h Works
Forest & wetland
Cultural identity 2
1
2
1
saf ety
Water tank
1
r Rive ck o &D
1
nk r Ta
ym plo
5
ent
ent
Cultural identity
Em
ym plo
Em
0
Cultural identity
Field
Value for flood safety environment Value for cultural identity Value for employment
iver
uR
ngp
Hua
l
2
te Wa 0
the
rcia me Com treet S
Cultural identity 2
Flo od
saf ety Flo od
River
Rice
ent
ent
Cultural identity
st & Fore and tl We ark &P
ym plo Em
0
ym plo Em
0
saf ety
Street
Flo od
saf ety Flo od
Farmland
ent
ent
Cultural identity
6
DETAILS OF BGI SYSTEM ON THE URBAN SCALE
Section A-A of green belt at riverside
Section B-B of park during rainy season
Section B-B of park during dry season
7
In the section of forest and wetland area, the water can be purified through the helophyte in the wetland and they will finally go into the ditches and can be stored in the rice fields.
Rendering of park
A
A
B
The park is located on the east side of the site and connects with a modern style high-rise community. The contrast between the sustainable community and the high-rise community can be seen in the background of the rendering.
B
RICE FIELD
Rice farmland can provide more career possibilities for low-income residents. And it also has a certain role of leisure and sightseeing. Surrounding residents or tourists can participate in the workshop or related activities organized by residents spontaneously.
Rendering of rice field
8
DETAILS OF BGI SYSTEM ON THE BLOCK & PRIVATE SCALE
At the left side of the river, there are some dock for boats or platform for residents to use river water directly. On the other side, there is ecological riverbank. And there are wells and water tank, which can provide communication opportunities for neighborhoods when using water.
Floating market
Section B-B of riverbank and street
Water tank point
Section C-C of garden in the housing area
B
B C
On the private scale, rainwater falls from the roof down to the planters on the ground and stored in the contain collections.
9
From the social aspect, river channels and main streets a re p l a ce s t h a t p rov i d e residents with professional needs and create a community atmosphere.
10
02. AGRO URBANISM Regional design in the Salland Oak Land PROJECT OBJECTIVE This project is a regional deign in the Salland Oak Land, where has typical agricultural landscape. However, the development of urbanization since 2000 has made the economic structure of this area very diversified, the income of farmers has declined, and the site has lost its original identity. This project used the theory of agrourbanism and a new form of agriculture (agroforestry) was introduced, combined with the original landscape. The design aims to restore the agricultural characteristics of the site and increase the economic income of local farmers.
PROJECT TYPE Academic Individual Work # Regional design # Cultural landscape # New identity for agriculture land
PROJECT LOCATION Salland, Netherlands
PROJECT TIME Spring, 2019
INSTRUCTOR Prof. ir. Adriaan Geuze
11
AGRO URBANISM
AGRICULTURE & ECONOMY
IDENTITY
ECOLOGY
URBAN FARMING
AGRO URBANISM AREA
URBAN FOREST
TOWN
CULTURAL FARM ESSEN
GREEN STRUCTURE
CULTURAL FARM KAMPEN
ENTRANCE
NATURE RESERVE
NATURE RESERVE
TOWN
BIKING ROUTE
BIKING ROUTE
+
N
0
URBAN FARMING
CULTURAL FARMING ESSEN
2
N
0
3KM
1
2
3KM
TOWN NATURE RESERVE
URBAN FOREST GREEN STRUCTURE
1
CULTURAL FARMING KAMPEN
BIKING ROUTE
FOOD
FOOD
R
ST OR AG E
FERTILIZER
URBAN FOREST
ENERGY
W AT E
R
ST OR AG E
VILLAGE
FOOD
W AT E
FARMLAND
FERTILIZER
VILLAGE
FOOD
FERTILIZER
URBAN FARMING
PORTECTION
OTHER FARMLAND
I looked for all the towns when testing the concept. I want to have a very strong interface between new agro and the town. The result of that is the urbanfarms group around the towns which can deliever a new and rich landscape for the residents. And the farming groups around the city will generate a sustainable circular system (Zabaniotou, A2015).
GREEN STRUCTURE
SWAMP
Outside of the agro-edge, there is a green structure which can connect the current green fragment. And the ecology can combine with energy, windmills will be located along the route. Source: Zabaniotou, A., Rovas, D., Libutti, A., & Monteleone, M. (2015). Boosting circular economy and closing the loop in agriculture: Case study of a small-scale pyrolysis–biochar based system integrated in an olive farm in symbiosis with an olive mill. Environmental Development, 14, 22-36.
12
PRODUCTION FOREST
CROP LAND
SURFACE WATER WITH SWAMP
AGROFORESTRY
FOREST
FARMHOUSE
BIKING ROUTE
WINDMILL
1
URBAN FARMING
URBAN FOREST
DITCH
There are two main groups of landscape types in the region. The first type is around the village. And the second type is the green structure which composed of forest outside of the village edge.
3
2
MEADOW
CULTURAL ESSEN
CULTURAL KAMPEN
The two types of cultural farming landscape are planned to be restored and use trees to emphasize features. The forest will split the large scale of farmland in essen, however form a bounding border in small scale kampen. (Stichting Landschapsbeheer Gelderland, N.D. a)
4
GREEN STRUCTURE
Stichting Landschapsbeheer Gelderland (N.D. b) Kampenlandschap. Retrieved from: https://landschapsbeheergelderland.nl/kampenlandschap/
13
1
=
+
URBAN FOREST
SEEPAGE AREA
GRASSLAND AREA
70% FOREST
15% SWAMP
URBAN FOREST
15% OTHERS
2
=
+
URBAN FARMING
SEEPAGE AREA
+
AGROFORESTRY
PRODUCTION FOREST
30% FOREST 30% CROP URBAN FARMING
20% SWAMP 20% OTHERS
3
ESSEN
KAMPEN
20% FOREST 30% CROP CULTURAL FARMING
30% GRASSLAND 10% SWAMP 10% OTHERS
4
=
+
FRAGMENTS
+
FOREST
WINDMILL
25% FOREST GREEN STRUCTURE
5% OTHERS 70% AGRICULTURE
14
URBAN FOREST A
QUERCUS
PRODUCTION FOREST
SWAMP
BIKING ROUTE
URBAN FARMING B B
FRUIT TREES
SWAMP
CROPLAND
BIKING ROUTE
GRAZING
GREEN STRUCTURE
C C
FOREST
15
MEADOW
GRASSLAND
BIKING ROUTE
GRAZING
A
N
KNOWLEDGE
FARMER
SPECIALIST
VILLAGE 50
100
150
250 M
ST TE
KN OW
D EL FI
E DG LE
FO OD LE DG E
OW KN
0
CT NE
FARMLAND
N CO
W ST AT OR ER AG E
ESTATE
FOREST
The estate will be a communication center of farmers and residents. The farm land in the estate will be education and test field for farmers and residents. All of the farmland types which are at the edge of village will be reappear in the estate. The estate employs farmers for farm management, and crop yields will be used to generate property.
PRODUCTION FOREST
AGROFORESTRY
CROP LAND
FRUIT FOREST
GRASSLAND
LANE TREES
WATER STORAGE
CENTER HOUSE
MAIN ROAD
P
WALKING ROUTE
PARKING LOT
16
03. PARK OF LIFE
Urban farming park in city Almere
PROJECT TYPE
PROJECT OBJECTIVE
Academic Individual Work
The project location is in Almere oosterworld. Almere is
# Urban farming park
one of the most successful new town in the Netherlands,
# Narrative
which has a short history of 37 years. The urban designers used the concept of a multi nucleolus garden-city with
PROJECT LOCATION
a large green-blue framework. This project will use a
Almere, Netherlands
narrative way to bring a new green corridor and new identity to Almere. The ambition now is to examine the
PROJECT TIME
possibilities of combining agricultural production for fresh
Autumn, 2018
urban food land and the Almere park system.
INSTRUCTOR Prof. ir. Adriaan Geuze, Sjoerd Brandsma MSc., Riëtte Bosch, Dr. João Cortesão
Tree of life (Klimt, 1905) 17
RIBBEN
MEMORY
GROWING LIFE
When I was a child, I always have a competition with trees. I tied a ribben on the branch to see who will grow faster. The tree contains my memories. Klimt once had a painting named the tree of life. The tree represents life, it breeds hope and heralds the
FAMILY WITH
× 280 / circle × 12
C HI LD
REN
34%
future. Just like the new city of Almere, its future is full of infinite possibilities. Therefore, youth and growth can be regarded as its characteristics, and trees can be used as a landscape element to carry all these meaning.
ALMERE NEW BORN POPULATION 2000 / YEAR
× 160 / circle
OT HERS
Every six children have a tree
×7
× 15YEARS = 333/YEAR
5000
Basic form symbolic of life circle
+ other tree lines in the circle
Source: Gemeente Almere. Population. Retrieved February , 2019, from https://english.almere.nl/the-city-of-almere/population/
TREE of circle
symbolic of life with MEMORY
Almere has many young people, and there will have 2000 new borns every year. If there are an average of six newborns every day, and every six children have a tree, then the children born during fifteen years will have 5,000 trees.
FARM around the circle symbolic of DAILY LIFE
The circular elements used in Klimt's paintings are used as basic shapes to design the tree lines in the park. And hope that this park will grow with Almere and become a new symbol of the city.
2020
2035
2050
18
ALMERE
The site is well connected to the urban fabric of Almere: North of the site the neighbourhoods of AlmereBuiten have been build, west of the site the suburban Nobelhorst.
SUGAR BEET
SUGAR POTATO BEET
WHEAT
WHEAT
POTATO POTATO
POTATO SUGAR BEET
SUGAR POTATO BEET
POTATO
PARKING COMMUNITY FARM
PARKING
COMMUNITY FARM
EXPERIMENTAL EXPERIMENTAL CORN
CORN VEGGIES
VEGGIES
CARROT
CARROT
The designed site connects water, vegetation, and roads with surrounding sites.
19
N
N
N
fa rm
forest
forest
farm
N
TREE FOREST OPEN MEADOW
PLAY MEADOW TREE FOREST
FRUIT FOREST PLAY MEADOW
FLOWER OPEN MEADOW
FRUIT FOREST FACILITIES
FLOWER
The park is divided longitudinally toward the center of the circle and horizontally according to the direction of exit. As there are already large areas of trees in the park, I want to keep the view as wide as possible along the edges of forest in the park, allowing
MEETING / EVENT MARKET MEADOW MEETING / EVENT MARKET MEADOW HARBOUR
FACILITIES
HARBOUR
people to experience the memory of childhood and spectacular arrangement of trees. On the contrary, at the edge of park, visitors can have sight of views of farms which is the symbolic of people's daily life.
20
LANE TREES
FOREST
21
ORCHARD
SEPERATE IN LAWN
25
25
25
25
20
20
20
20
15
15
15
15
10
10
10
10
5
5
5
0
0
0
5 0
Betula pendula
Carpinus betulus
Populus alba
Populus Canescens
Quercus robur
Fagus sylvatica
Fraxinus Excelsior
Acer campestre
Vaccinium corymbosum
Cydonia oblonga
Malus domestica
Prunus domestica
Pyrus communis
Quercus palustris
Juglans regia
Quercus phellos
Height: 15-25m Soil: Nutrient
Height: 15-25m Soil: Wet, Nutrient
Height: 15-27m Soil: Wet
Height: 20-25m Soil: Wet
Height: 10-15m Soil: Wet
Height: 25-35m Soil: Multiple
Height: 12-18m Soil: Multiple
Height: 15-25m Soil: Neutral
Height: 1.8-3.7m Soil: Wet
Height: 3-5m Soil: Multiple
Height: 5-10m Soil: Multiple
Height: 5-10m Soil: Wet
Height: 6-15m Soil: Wet
Height: 18-22m Soil: Wet
Height: 15-35m Soil: Well-drained
Height: 15-20m Soil: Wet
river — growing tree circle (2 rows—3 rows )
harbor — growing tree circle (5 rows—7 rows—1 row—lawn—1 row) — fruit forest
play meadow — growing tree lines — play meadow — growing tree circle Forests with different amount of rows and open meadow allow people to have different viewing experiences. Fruit trees can enrich the picking behavior and reflect the agricultural atmosphere.
22
After a few years, the trees grow up and the ribben will be far away from their sight. In order to let people recall the past better, an ornamental bridge is designed. It will be located in the forest beside the entrance which is connected with green cooridor. Using bright yellow and wood material to build the bridge, the pattern of the tree of life will also be added on the surface of bridge to relate to the surroundings.
23
04. THINKING OUTSIDE OF THE GREY BOXES Transition for the business park Amsterdam Osdorp
PROFIT The economic value of the area, the business possibilities and limitations
MULTIFUNCTIONALITY Integrating multiple functions on a limited spatial surface seems to be the most efďŹ cient and comprehensive answer to this demand for sustainability.
CONNECTIVITY Green, blue, infrastructure and social connectivity are basic requirements of a functioning multi-actor complex system, as these allow communication and exchange between the actors.
PLANET All concerning the green network and habitat connectivity, ecological value, biodiversity, environmental resources and threat.
PROJECT TYPE
PROJECT TIME
Academic Group Work
Summer, 2019
PROJECT LOCATION
PROJECT OBJECTIVE
PEOPLE All the relevant social components, such as social cohesion, public security, infrastructure connectivity.
Amsterdam Osdorp, Netherlands
The spatial scope of this project is to explore new possibilities for the business park
COMMISSIONERS
a regional scale and at the same time connect it with the city and communities at the
ROBERT GRAAT (STAATSBOSBEHEER) &
phase 2 on two scales. The challenge for this project is to embed the development at local scale in order to create and enhance a coherent, multifunctional, climate proof, healthy, circular, biodiverse and recreational area on small and large scale.
PETER JOUSTRA (SADC)
24
Location of business park in Amsterdam
Map of Business Park Amsterdam Osdorp
On the local scale, we are redesigning phase 2 and re-evaluating phase 1 Business Park Amsterdam Osdorp: Phase 2
Business Park Amsterdam Osdorp
of Amsterdam Osdorp business park, in order to create and integrate a green and multidisciplinary site. On the regional scale, we aim to improve
Business Park Amsterdam Osdorp: Phase 1
the connections of the business park with the green networks and the
Business Park Amsterdam Osdorp: Phase 2
Business Park Amsterdam Osdorp: Phase 1
IN
CR
EA
SE
AC C
ES
SIB
ILI TY
Physical connection solution
25
EXPAND
AND INC
LUDE TH
Business Park Amsterdam Osdorp: Phase 2
E GREEN
NETWO
RK
surrounding area.
Green network solutions
Business Park Amsterdam Osdorp: Phase 1
Phase 2 program
Lutkemeer region: Phase 2 program
Agroforestry + ecological connection
Rooftop park
Solar energy fields
Horticulture + food related activities and facilities
Green corridor + meeting space
Other activities
Program connections
Rooftop park
Green corridor + meeting space
Solar energy fields
Other activities
Food forest
Boterbloem farm
Horticulture + food related activities and facilities
Water Parking lot
Agroforestry + ecological connection
Road
Impression central meeting point green boulevard
Memorial park entrance at night
Memorial park entrance daylight
Promenade
26
Section A-A Main road
0,8
4m
6m
8m
7m
2,20
0,8
4m
0,8
Section B-B Promenade
20 m
3m
7m
7m
4m
3m
1,5
3,6 m
3m
3m
20 m
Section C-C main corridor, dry bio-retention basin
10 m 1.7
15 m
2m
26 m
4m
20 m
1.7
4m
20 m
1.7
Section C-C main corridor, filled bio-retention basin
10 m 1.7
15 m
2m
26 m
Section D-D main corridor, increased ecological function
10 m 1.7
27
13 m
4.5 m
26 m
4m
20 m
1.7
05. HERBTOPIA Urban greenhouse in Dongguan, China
PROJECT TYPE Group Competition
PROJECT OBJECTIVE
PROJECT LOCATION
An urban greenhouse that employs
Dongguan, China
future-proof concepts, revives Lingnan Architecture style promotes agricultural
PROJECT TIME
eduction, boosts healthy lifestyle, and
Spring, 2020
intensifies community association.
Design principles South
The South-north Orietation
Open Atrium
Open Ground Floor
Architecture as Part of the Garden
Light structure
Green Roof
Cantonese Village Layout
Interconnected
Circularity system
WEBSITE OF TEAM: https://urbangreenhousechallenge.nl/candidate/details/8634 PROJECT PITCH: https://s3-eu-west-1.amazonaws.com/s3.soapbox.nl/uploaded/urbangreenhousechallenge.nl/FILE.8634.0.1597756843.mp4 MODEL VIDEO: https://s3-eu-west-1.amazonaws.com/s3.soapbox.nl/uploaded/urbangreenhousechallenge.nl/FILE.8634.0.1598135391.mp4
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Materials and structure
solar panel grass growing medium geotextile drainage layer protection layer waterproof layer roof struction
adjustable glass
solar panel
seagrass growing framework waterproof layer roof struction
Program at the entrance and rooftop greenhouse
grass growing medium geotextile drainage layer protection layer waterproof layer roof struction
solar chimney
water curtain with double-layered glass
water curtain with single glass
underground treatment tank
5M
5M
5M 0 N
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Terrace
Garden and field
Terrace
Rooftop greenhouse
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06. WATER STORAGE LEISURE LINE
CONCEPT
Reigonal design for the MRA area PROJECT TYPE Academic Individual Work
Using area around innudation area to store water from cities. And the storage lake are mainly in lower peat area.
# Regional design
PROJECT LOCATION Amsterdam, Netherlands
PROJECT TIME Spring, 2018
INSTRUCTOR
Building parks around the water storage lakes and establish links with fort, in order to form linear parks with water storage, water purification and leisure.
SH (Sjoerd) Brandsma MSc
PROJECT OBJECTIVE This project focus on water storage and tourism problem. It creates safer and leisure metropolitan region of Amsterdam through continuous city CITY
GREEN AREA
WATER STORAGE
FORT
INNUDATION
LINEAR PARK
WATER FLOW
LINKAGE
water storage park and tour route.
Water resources are transported to surrounding agricultural and urban areas by several major canals, and the surrounding green spaces can also be involved in the purification process in order to prevent water from being polluted.
LANDSCAPE ANALYSIS DUNE
CITY
FORT
POLDER
PEAT
INNUDATION
CLAY
PEAT -200 -500CM
GREEN AREA
PEAT
PEAT > -500CM
CITY WATER
CITY
Landscape units
Lower peat
Chances
This area has much low land, like peat and polder. City is surrounded by lowland.
Peat is a unique and common kind of soil in this area. This a analysis of height in the peat area.
There are many chances: Heritage Defence Line, dispersed green area, water network and surrounding cities.
PROBLEMS
PROBLEM MAP Climate Change
2. Lack of Tourism Spread
320-360 MM
0-10 CM
BIG
280-320 MM
> 10 CM
MEDIUM
TOURISTS
Problem
1. Climate Adapation
Sea Level Rise
More Pumping
LIMITED
240-280 MM
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Land subsidence in peat area.
Salinization problem, especially in polder area.A
There are too many tourists gather in A‘dam or Zandvoort.
Solution
Salinization
Rain Surplus bacause of rainy peak days.
Connect chance of water storage and tourism
Inundated Area Water Storage
Rain Surplus
Waste of Water Source
Land Subsidence
+ Surrounding Green Area +
Lack of tourism spread
Linear Parks or forts
- give water for agricultural and urban use - give more leisure area for citizens and tourists
MASTERPLAN
Ride or walk through water storage parks and wetland
Ride or walk through fort
Ride or walk from city parks
Water flows from surrounding cities to water storage parks, then will been transported to Amsterdam and polders.
Link Amsterdam and fort with vertical bicycle routes, link fort and water storage pars with a circular bicycle route.
PRINCIPLES
INTERVENTION Canal to Amsterdam
Wa t e r f l ows f ro m c it y into water storage lake through ditch, then flows into polder or been pumped into canal and transported to Amsterdam.
Pump Station
Rainsu
rplus Water St
1. Storage rain surplus at peak time, use pipe to discharge water
4. Connect surrounding forts or parks with storage, let them create a leisure walk line for local residents, also use wate for polder area in dry season.
2. Innudate some area in low parts, creat water storage lake in peat area because I want to keep the argiculture in polder area.
5. Water will be transported by nearby canal. And the water will serve for polder‘s agricultural use or urban use during droughts.
3. Use natural area to store and purify water, for example helofyten filter.
Peucedanum palustre
Po ld
er
orage
Salix Daphnoides
Kikkerbeet
Salix Caprea
6. Creat links between various tourist sites with cycling line or walk line for tourists.
Reeds
Submersed Water Grass
Grassla
nd Wetlan
d fore
st
Reeds
Aqua
tic pla
nts
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OTHER WORKS
Model making
A more dignity living space for the refugee
A better walking environment design in Lujiazui perdestrian bridge
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Hand drawing and pop-up book
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SELECTED WORKS
JINGXIAN LU
JINGXIAN LU PORTFOLIO | SEP 2020
Landscape Architecture
2018-2020
Wageningen University