Re-Imagining Jurong East
Part A: Retrofit of Jurong East
Part B: Proposal for Jurong Lakeside – Singapore’s new CBD
Part A: RETROFITTING JURONG EAST
Students Involed
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS
Mugeraya Sanjana | Wang Yifei | Wu Jingfu
WEST REGION SITE
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS
Fabric | Jurong East 2022
Existing
Jurong East 2050 : A Biophilic People-Centric District
Use of more carbon friendly mobility options by enhancing the slow mobility network
LIVING, COMMUTING AND WORKING IN NATURE
Injection of Blue-Green and Public space systems within and between “island” clusters
Reclaiming the Ground from the mobility systems and enhancing the ecological network
MAXIMISING THE RESOURCE SYSTEMS WITH MIN CARBON EMMISIONS
Retrofitting the urban fabric to enhance the 5 systems
Avoid total demolition of any building on site, to reduce waste and carbon emissions
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS Vision I Jurong East 2050
CAR-LITE URBAN FABRIC
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS BEFORE Retrofit Typologies | Residential Area | Courtyard View
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS BEFORE Retrofit Typologies | Central Gateway
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS BEFORE Retrofit Typologies | International Business Park | Central Green Area
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS BEFORE Retrofit Typologies | International Business Park | Pandan River Edge
BEFORE AFTER
Retrofit Typologies | Residential Area
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS Retrofit Existing Buildings (near lease end) to retain structure and opening up parts of the ground floor to increase public interaction between the different edges AFTER
Typologies | Business Park and Industrial Typology BEFORE
Retrofit
System Layers | Public Space Network
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS 73.3% Public Space Ratio Total Public Space Area ≈ 19,49,530m2 72254 636839 159006 1025818 55617 0 1000000 Public Buildings Podium & Terraces E-Deck/J Walk Green Community Farming Public Buildings Podium Public Plaza Green Community Farming E-Deck 44.67 sq. m Green Space per Capita
System Layers | Green Systems
43.33 sq. m Green Space per Capita
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS 71.1% Total Green Plot Ratio W.r.t Site Area Total Green Area (Building + Urban Level) ≈ 18,91,150 m2 650711.4 55616.6 967745.5 217077.8 0 500000 1000000 1500000 Building Community Managed Natural Building Community Managed Natural
System Layers | Food Systems
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Vegetable Farming (Soil based) Vertical Farming
183.6% Vegetable SelfSufficiency 433.5 4,277 7,383.9 2,502.4 960 0 5000 10000 Fish Supply Fish Demand Vegetable Supply Vegetables Demand Soil-based Vertical farming Aquaculture Food Demand and Supply Existing Population = 39,820 Predicted Population = 43,640 260.65% Fish SelfSufficiency
census
Aquaculture Farms (Fish)
*Calculations don't include yield produced by community farms *Target Population considered is only the fixed population, as per the
System Layers | Energy Systems
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS 89.8% Energy SelfSufficiency By 2050 * 40% Reduction in Demand for buildings with Minor retrofit and 60% reduction in demand for buildings with major retrofit (predicted due to improved efficiency of mechanical and passive systems by 2050) ** 17% reduction through DCS for all nonresidential buildings (minor and major retrofitted) Calculations without considering load from automated mobility and water treatment. Total Demand = 359.37 GWh/year Total Supply = 322.74 GWh/year 0 200 400 600 800 Post DCS Reduction** Post Improvement* Baseline Residential Office Commercial Industrial Institutional Mixed Use Farming 0 100 200 300 Infrastructure PV BIPV Building Roof PV Residential Office Commercial Industrial Institutional Mixed Use Infrastructure Roof Solar Panels Building Integrated PV Façade Infra level PV
System Layers | Water Systems
Demand (ML / Year)
Non-potable Water SelfSufficiency
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Total
Total
0 1000 2000 3000 Farming Non-Potable Potable Residential Office Commercial Industrial Institutional Mixed Use Farming 0 1000 2000 3000 4000 5000 Greywater RWH Roofs Rainwater Greywater Rain Garden Water Landscape Farming Building Rainwater Collection Natural Water Body
161%
Supply (ML / Year)
Part B: JURONG LAKESIDE GATEWAY –
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS REN PEIHAN | CHEN JIN | XING YUE | MEI JIE | AMOD NARGUND
A
Singapore’s New CBD Students Involed
Proposal For
SITE BRIEF:
High-Speed Rail
Location of High-Speed Rail Terminus (connecting to Malaysia)
Conservation
Conservation of Jurong Town Hall Building
Conservation of Science Centre
Mixed-use
The site can be developed into a good mix of hotels, retail, convention and meeting facilities and recreational facilities, including tourism
High-density
GFA: 4,000,000 m² Plot
This is a copyrighted
MSc Integrated Sustainable Design studio in NUS EXISTING SCENARIO | PROJECT BRIEF
work and is work-product of the
40% 45% 15% RESI OFFICE RECREATION
attractions.
Ratio: 3.5-4
AREA:
LOCATION: WEST REGION JURONG EAST LAKESIDE 1 °19’56.80’’N 103 °44’02.98’’E
SITE
112ha
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | VIEW OF BUSINESS PARK
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | VIEW OF THE CENTRAL AND SECONDARY GREEN CORRIDOR
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | VIEW OF PLAZA, HSR AND JURONG TOWN HALL
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS 9345 45508 909901 26004 507473 192389 0 400000 800000 Public Plaza Community Farming Managed Green E-Deck Podium & Terraces Public Buildings Public Plaza Community Farming Managed Green E-Deck Podium & Terraces Public Buildings
PUBLIC SPACE 151% Public Space Ratio Total Public Space Area ≈ 1690620 m2
DESIGN PROPOSAL | SYSTEMS |
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | SYSTEMS | GREEN 165% Total Green Plot Ratio Total Green Area ≈ 1858450 m2 696900 119919 909901 131730 0 400000 800000 Building Community Managed Natural Building Community Managed Natural * The soil-based farm shown in the image is not concluded in the total green plot ratio
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | SYSTEMS | ENERGY 100% Energy SelfSufficiency By 2050 * 40% Reduction in Demand predicted due to improved efficiency of mechanical and passive systems by 2050 ** 17% reduction in the total air conditioning load for commercial, offices, institutional and new mixeduse typologies through District Cooling Systems Calculations without considering load from farming, automated mobility and water treatment. Total Demand = 221.10 GWh Total Supply = 221.18 kWh 0 200 400 600 800 Post DCS Reduction Post Improvement Baseline Residential Office Commercial Hotels 0 200 400 600 800 Infrastructure PV BIPV Building Roof PV Residential Office Hotel Farming Infrastructure
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | SYSTEMS | FOOD 169% Vegetable Self-Sufficiency 1738.1 7776 11406.8 2102.5 1800 0 5000 10000 15000 Fish Supply Fish Demand Vegetable Supply Vegetables Demand Soil-based Vertical farming Aquaculture Food Demand and Supply Population = 72000 116% Fish Self-Sufficiency
Total Non-potable Water Demand
3308 (ML / Year)
Total Non-potable Water Supply 4924 (ML / Year)
RWH Softscapes RWH
RWH Hardscapes
Non-potable Water SelfSufficiency
This is a copyrighted work and is work-product of the MSc Integrated Sustainable Design studio in NUS DESIGN PROPOSAL | SYSTEMS | WATER
130%
0 1000 2000 3000 4000 Farming Non-Potable Potable Residential Office Commercial Industrial Institutional Mixed Use Farming 0 1000 2000 3000 4000 Greywater
Roofs Rainwater Greywater