|TING WEI CHU
PORTFOLIO _
URBAN PLANNING AND URBAN DESIGN
Ting Wei, Chu +31617289302 | alleychu@gmail.com
Work experience.
Volunteer experience.
Intern
Municipality of Gouda, the Netherlands 2015.05-2015.07 (2 months)
Project Assistant
Department of Urban Planning in National Cheng Kung University, Tainan, Taiwan
Intern
Visionary International Consultants Ltd, Tainan, Taiwan 2012.08-2013.02 (6 months)
Intern
Joseph Wong Design Associates (JWDA), Shanghai, China 2012.07-2012.08 (1 month)
2013.09-2014.02 (6 months)
Education. Master’s degree in Urbanism,
2014.09 2016.06
Bachelor’s degree in Urban Planning, National Cheng Kung University, Taiwan
2009.09 2014.06
Exchage programme in Urban Planning, Tongji University, Shanghai
2012.02 2012.07
Delft University of Technology, NL
Language. English (proficient) / Chinese (native) / Dutch (ongoing learning)
Polis_ Student Association for Urbanism Board Member and Landscape Architecture, TU Delft
Writer & Editor
Atlantis_ Student Magazine for Urbanism and Landscape Architecture, TU Delft
Writer
Oranje Express_Chinese speaking platform for in-depth coverage of Dutch society
Special experience. -Pocessed the Annotation of Infrastructure and Environment Design offered as part of the master’s programme (2016.06) -Participated in Yes! Delft Start up competition (2015.06) -Won the National Studying Abroad Scholarship of 2015 from Ministry of Education, Taiwan (2015.02)
Skill. _computer
_knowledge
Adobe Illustrator Adobe Photoshop Adobe Indesign AutoCad Arc GIS Sketchup pro Revit Rhino Hand drawing
Urban and regional planning Land use planning Urban development Open space design Conceptual planning Spatial strategy Sustainable urban design Integrated water management
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CONTENT.
1. CO-CREATE RESILIENCE
P.3
2. CLEAN
P.7
3. ADAPTING GOUDA 4. GREEN HEART
P.11 P.15
5. SHINHUA MASTER PLAN
P.19
6. HAND DRAWING COLLECTION
P.23
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PROJECT 1.
CO-CREATE RESILIENCE INTEGRATING PLANNERS, DESIGNERS AND ENGINEERS FOR ADAPTING TO FLOOD RISK IN TAIPEI Site: Taipei City, Taiwan Course: graduation project, Urbanism master programme, TU Delft Project type: individual project Year: 2015-2016
Taipei city has a serious flooding issue resulted from both natural and man-made causes. Although currently there has been well-established flood defense such as dikes, drainage system and pumping stations, climate change makes these pure engineering solutions falling short. This brings the attention to an integrated approach which combines both engineering and spatial solutions for addressing flood risk, and it requires cooperation among different professions through different policy levels. This project focused on the relationship among urban planners, urban designers and engineers in flood risk management. Through research, the problem was identified that there was a lack of integration between planners and engineers, and designers were hardly involved in the decision making process. This led to the outcome of this project as both the integrated working process and an integrated spatial strategy. Furthormore, a water square in one of the strategic area was also tested as an integrated design intervention.
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CO-CREATE PROCESS ANALYSIS
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STRATEGY MAKING
SPATIAL INTERVENTION MAKING
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PROJECT 2.
CLEAN INTEGRATED NETWORK OF WASTE MANAGEMENT AND INFRASTRUCTURE IMPROVEMENT Site: City of Sao Paulo, Brazil Course: Smart infrastructure & Mobility, Urbanism Master Programme, TU Delft Project type: group project Year: 2015
Sao Paulo has a number of multi-level problems concerning water, infrastructure and social problems. These include: water pollution both in rivers and water basins caused by lack of proper waste management, leading to sanitation problem; a lack of diversity, capacity and quality of infrastructure, leading to ineffective mobility and connectivity; a lack of job opportunity in villages, leading to an unequal prosperity between suburb and city, also the growth of informal settlements. Thus the project proposed a strategy of creating a network for integrating waste management and infrastructure, which had an aim to reduce water pollution, improve infrastructure and create local employment. The strategy included: waste collecting points through community, social housing for settling those informal settlement along the river, green corridor along river after relocating informal settlement, and local port for transporting collected waste. The strategy would be first applied in the community near CEU (in the assigned working scale) in the first phase, and then the surrounding neighbourhoods.
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3
1
2
4
1 2 3 4
wetland new social housing new port river extension
N 50M
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100M
200M
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BEFORE
_ $ _ $
_ $ _ $
AFTER
+ $ + $
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+ $ + $
PROJECT 3. 1. Gutter Streets
2. Storage Boxes
ADAPTING GOUDA SPATIAL INTERVENTIONS FOR GROUND WATER MANAGEMENT
3. Street Creeks
Site: City of Gouda, the Netherlands Course: AquaTerra Urban Design, Urbanism Master Programme, TU Delft Project type: group project Year: 2015
4. Revitalizing Parks There are a set of water issues in the city center of Gouda, including: groundwater flooding and subsidence of the peat caused by high and low groundwater level, groundwater pollution caused by old leaking sewage pipes, high risk of flooding caused by the little height difference between surface water and groundwater level, and bad water quality of non-flowing surface water in canals. Having into account these problems, this project focused on the high groundwater problems and proposed a spatial strategy with several design interventions. This project involved three categories of stakeholders. The first group included the coalition of the Municipality of Gouda, Deltares and TU delft. The second was public sector and cooperation, including department of maintenance, sport organization, drinking water companies, Waterboard and De Urbanisten (urban design partner suggested in this project). The last group was the inhabitants, neighbors associations, local school and local business owners. Different stakeholders were involved depending on different interventions.
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5. Sponge Streets
6. Water Square
6.
1. 2.
4.
5. 3.
100 m 0m
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500 m 200 m
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PHASING
Gutter Streets Sluice Sponge Streets Revitalizing Parks Storage Boxes Street Creeks Water Square
STAKEHOLDER COALITION
Municipality
PUBLIC SECTOR AND COOPERATION
TU Delft
Deltares
Department of Sport Drinking water maintenance Organization Company
Waterboard
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CIVIL SOCIETY
De Urbanisten (Designers)
Inhabitants
Neighbors association
Local schools
Local business owners
PROJECT 4 .
GREEN HEART Site: New Jiangwan City, Yangpu District in the northeast of Shanghai, China Course: studio project, Urban Planning, Tong Ji University Project type: individual project Year: 2012
This project is a practice of ‘’detailed reconstructive planning for residential area” (修建性詳細規劃) , as one type of planning based on overall urban planning, zoning and regulatory planning in the urban planning system in China. The project requires spatial analysis in regional and site scale, as well as design of master plan, housing unit and open space. Some requirement are assigned including the amount of housing, green space, public fasility and so on. The goal of the proposal is to create a sustainable and compact community, which can improve the connection between the existing transportation facility and the community, and to furthermore encourage the usage of public transportation. Besides, the proposal intended to make the best use of existing ecology resources there, and invite water in while it used to be defended.
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Education facility
Land use Residential use takes the major land use proportion. residential office/retail commercial social service mixed-use green land industrial parking space public facilities waters
Housing type
After calculation, one more primary school and secondary school are needed.
kindergarten primary school secondary school unversity
Public facility
Among diverse types, highrise apartments and villas take the majority.
New Jiangwan City features cultural and sports facilities but most of them are for high-end market.
type A (11-30 floor) type B (7-10 floor) type C (4-6 floor) type D (1-3 floor) type E (type A+B) type F (type B+C)
sports facility cultural facility community facility
Eco-system
Transportation Road system is harmoniously intertwined with eco-system. But most people still rely on private cars . major road collector road subway route subway station bus station intercity bus station parking space
New Jiangwan City preserves most of the initial econetwork structure, but our site cuts off the connection of water network.
public green space private green space waters
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Building system
high-density dwelling general-density residential community public facility blue / green belt compact development area
Greenery system
blue / green belt housing cluster green space landscape node
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Road system
vehicle road system internal walking system external walking route entrance underground parking entrance
PROJECT 5 .
SHINHUA MASTER PLAN Site: Shinhua District, Tainan City, Taiwan Course: studio project, Urban Planning, National Cheng Kung University Project type: group project Year: 2011
This project is a practice of “periodical overall review of urban planning” (通盤檢討), which is required to be conducted at least once every five years in the urban planning system in Taiwan. This involves a wide range of data collcetion, inclusing land use, natural resources, social and economic context, relevant plans and so on. The project features the ArcGIS suitability analysis approach for processing the collected data. With ArcGIS operation, the zoning maps with priority rating for urban, agriculture and conservation areas can be created respectively. This furthermore became the base for the urban vision for the final overall planning.
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Urban area
Conservation
Agriculture
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ArcGIS Suitability Analysis
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Urban area
Conservation area
Agriculture area
Urban URBAN
Agriculture AGRICULTURE
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Conservation CONSERVATION
HAND DRAWINGS
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URBAN DESIGN MATTERS.