Battersea Park

Qeenstown Road

Wandsworth Road

Vauxhall

Stockwell

Plot_K

National RailTube Victoria LineBus stop around

A’

B’C’

A

B C

A class Public Road

Local path

Green Network Road + Cycle network

A’

B’

C’

A

B

C

Open Space Open Space

Open Space Open Space

Open Space

Road Road

RoadRoad

Car Park Space

Road

Road RoadRoad

Roadschool

school

English Social Housing

Green cycle network

Car Park Space

21. July. 9:00

21. September. 9:00 21. September. 12:00 21. September. 15:00

21. December. 9:00 21. December. 12:00 21. December. 15:00

21. July. 12:00 21. July. 15:00

January

May

September October Nobember December

June July August

Febuary March April

2012 By 2037 Primary School

Community Centre

Community Car Parking

Semi-Private Open Space

Community Farm

Community Square

Passive Energy House Passive Energy House

( Retrofit Refurbishment)

Pedestrian Path

N

By 2112

Complex Culture centre

(cinema, cafe, roof garden, residence)

Water Garden

Water Garden

Community Garden

Solar Roof

SOHO building

(Retrofit

Refurbishment)

2062ByPassive Energy House

Gallery, Market, Cafe

Small Office, Guest Space

Complex Building (Shop, Office, Restaurant)Pedestrian Path

Tree

Community Center Square

Pedestrian Road + Cycle Lane

This location is linked to each public transport within possible access distance.

Promote ordinary use of Public Transport.

Enhance safe pedestrian/cycle link to the public transport.

Transit Oriented Development

Battersea Park

Qeenstown Road

Wandsworth Road

Vauxhall

Stockwell

Plot_K

National Rail

Tube Victoria Line

Bus stop around Plot K

50m50m50m50m

50m50m

within 50-100m Around 300-400m

Bus stopUnderground or National Rail

House

Detroit Energy StarategySource: Buro Happold

Wind and Ventilation and Sun Light CHP (Combined Heating Plant)

Wind Path

Sun Light

Solar PV Roof (Shading)

Sun Light

30°

Passive Energy House

MIxed UseActivate urban area as more flexible use.

Increase housing options for different house holds.

Create local sense of place.

Decrease travel frequency.

http://www.amgencorp.com/services.html

Open SpaceEnhance enviromental bio-diversity.

Create effective wind pass.

Create confortable community spaces.

Enhance open space network for pedestrians and children.

http://www.amgencorp.com/services.html

Planting StrategyGreen can create natural circulate system.

Create proper shade for pedestrians and houses.

Mitigate noise and protect privacy.

Recycle grey water for cultivating trees.

Provide local foods from local gardens.walking path Grey water recycle

Local Food

Rain water collection

Waste Management and RecyclingNowadays waste is no longer just waste. It can be a resource that is being utilised effectively. This way is more economical and environmental friendly. Separating waste can also promote reducing the overall amount of waste.Then waste can be used as new materials and energy resources.

Water Management

There is a new technology system dealing with waste water. Hammarby Sjostad has four separate treatment lines fo greywater. This greay water can be extracted bio-natural resources auch as bio bas fual.

http://www.dw.de/dw/article/0,,5876336,00.ht

Waste Water Treatment

http://www.hammarbysjostad.se/inenglish/pdf/HS_miljo_bok_eng_ny.pdf

Flooding Lisk Management

Environmental Agency 2012

This area has much potential of flood risk (Environmental Agency, 2012).There are several way to mitigate this risk. Firstly Planting might be helpful for mitigating this situation.Secondly, the building design should apply for the looftop evacuation space such as loof garden. Loof network around neighbourhood is also effective.

Transition Pathways

Strategies

Target 70% reduction of CO2 emissions

Scenario for over 70% reduction of community-scale CO2 emissions through 100 years

Site Transport Link Shade Analysis Building Typology

Wind Analysis

Conclusions (Summary)

2012 2037 2062 2112

200400

600800100012001400160018002000

02012 2037 2062 2112

Life style footprint

5,00010,00015,00020,00025,00030,00035,00040,00045,000

02012 2037 2062 2112

1,000,000

2,000,000

3,000,000

4,000,000

5,000,000

6,000,000

embodied footprint

energy footprint

0

2012 2037 2062 2112

350,000,000

300,000,000

250,000,000

200,000,000

150,000,000

100,000,000

50,000,000

0

sales

construction

balanceTotal Thermal

Total Electrical

Total Thermal Renewable

Total Electrical Renewable

2012 2037 2062 21120

2,000,000

4,000,000

6,000,000

8,000,000

10,000,000

12,000,000

14,000,000

16,000,000

Embodied footprint/Energy footprint (kg/co2/year) Lifestyle footprint (kg/co2/year) Total footprint per Person (kg/co2/year)

Electrical & Thermal reduction Cost Benefit Balance (£)Final Image CG

Acknowledgement: This work is partly supported by S-6 and SATREPS projects.Miho Kemei, Sustainabile Social System Section, National Institute for Environmental Studies