BAU_Workshop.pdf

Transcript

1. FUNK TION TOWARDS A NEW DESIGN EXCELLENCE JM | RESOURCE

   VISION BAU | 30.03.09
2. None

3. I N T R O

4. E N V I R O N M E N

   T I N T R O

5. E N V I R O N M E N

   T S U S T A I N A B I L I T Y I N T R O

6. 1234 E N V I R O N M E

   N T S U S T A I N A B I L I T Y I N T R O

7. 1234 PRINCIPLES E N V I R O N M

   E N T S U S T A I N A B I L I T Y I N T R O

8. 1234 PRINCIPLES STORIES E N V I R O N

   M E N T S U S T A I N A B I L I T Y I N T R O

9. 1234 PRINCIPLES STORIES BUILT DESIGN E N V I R

   O N M E N T S U S T A I N A B I L I T Y I N T R O

10. 1234 PRINCIPLES STORIES TECHNIQUES BUILT DESIGN E N V I

    R O N M E N T S U S T A I N A B I L I T Y I N T R O

11. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

    I R O N M E N T S U S T A I N A B I L I T Y I N T R O

12. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

    I R O N M E N T S U S T A I N A B I L I T Y I N T R O F U N C T I O N

13. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

    I R O N M E N T S U S T A I N A B I L I T Y P R A C T I C E I N T R O F U N C T I O N

14. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

    I R O N M E N T REVIEW / SUMMARY S U S T A I N A B I L I T Y P R A C T I C E I N T R O F U N C T I O N

15. INTRO

16. None

17. P R O B L E M ?

18. P R O B L E M ? A R

    C H I T E C T U R E ?

19. P R O B L E M ? A R

    C H I T E C T U R E ? JM | RV
20. None

21. AGENDA 21 AL GORE ALEX STEFFEN AMORY LOVINS AVAAZ BASEL

    CONVENTION BEDZED BIG HYDRO BILL MCDONOUGH BIOMASS ENERGY BO01 BREEAM BUSINESS SCHOOLS CARBON NEUTRAL CARDIFF PROCESS CAROLINE LUCAS CBD CDM CFSD CITES CLEAN COAL CLIMATE ALLIANCE CLIMATE CARE COMMUNITY GROUPS CSD DARYL HANNAH DISCOURSE THEORY DONGTAN DOWNSHIFTING E PSYCHOLOGY E SOCIOLOGY ECO-PHILOSOPHY ECO-VILLAGES ECODESIGN ECOLABELS ECOLOGICAL ECONOMICS ED BEGLEY JR EDEN PROJECT ELECTRIC CARS EMISSIONS TRADING EU SDS EVA FOOTPRINTING FORUM FOR THE FUTURE FRIENDS OF THE EARTH FSC WOOD FUTERRA GEORGE MONBIOT GMOS GRAHAM HILL GREEN ARCHITECTURE GREEN PARTIES GREEN REVOLUTION GREENPEACE HAMMARBY SJÖSTAD HYBRID CARS I = P.A.T INDUSTRIAL ECOLOGY JIM HANSEN JOHN ELKINGTON JOHN MANOOCHEHRI JOINT IMPLEMENTATION JONATHAN ROBINSON JONATHON PORRITT KYOTO PROTOCOL LCA/MFA/PIOT/MIOT LEED LEONARDO DICAPRIO LESTER BROWN LISBON STRATEGY LOCAL AGENDA 21 MARK LYNAS MASDAR MATA DE SESIMBRA MATERIALS SUBSTITUTION MEDIA MICHAEL BRAUNGART MILLENNIUM DEVELOPMENT MSC FISH NATIONAL PARKS NATURE RESERVES NEW DREAM NEW ECONOMICS NICHOLAS STERN NRDC NUCLEAR ORGANIC FOOD OTHER PARTIES PAUL EHRLICH PHOTOVOLTAICS PIC-POPS CONVENTIONS PLANET IN PERIL POLITECNICO DI TORINO POLITICAL ECOLOGY POLLUTION REMEDIATION RECYCLED PRODUCTS RECYCLING RELIGIOUS GROUPS RESOURCE VISION ROCKY MOUNTAIN INSTITUTE SCHOOLS SD COMMISSION SERI SID SLOW FOOD SMALL HYDRO SOLITAIRE TOWNSEND STERN REVIEW SUSTAINBLE DEVELOPMENT SYSTEMS ECOLOGY TALLBERG FORUM TED THE HUB TIDAL POWER TIM JACKSON TIM SMIT TRANSITION TOWNS TREE-HUGGER UN SUMMITS UNEP UNEP CHEMICALS UNFCC CLIMATE TALKS UNIVERSITIES USGBC VANDANA SHIVA VOLUNTARY OFFSET WANGARI MAATHAI WAVE POWER WB ENVIRONMENT WEF WIND POWER WISER EARTH WOLFGANG SACHS WOMEN’S GROUPS WORLDWATCH WTO ENVIRONMENT WUPPERTAL YOUTH GROUPS ZERI ZIPCAR
22. None

23. BEHAVIOUR SOLUTIONS SOCIAL SCIENCE PSYCHOLOGY POLICY/INFORMATION SYSTEM SOLUTIONS INFRASTRUCTURE GOVERNANCE

    POLITICS ECONOMICS RESOURCE SOLUTIONS POLLUTION MANAGEMENT NATURE PRESERVATION SUBSTITUTION/EFFICIENCY
24. None
25. None
26. None

27. PROBLEM? SOLUTION? SCALE?

28. MATERI CULTUR PROBLEM? SOLUTION? SCALE?

29. 90% RESOURCE REDUCTION BY 2050

30. 90% RESOURCE REDUCTION BY 2050 10BN

31. None

32. ENVIRONMENTAL DESIGN

33. None

34. SUSTAINABLE DESIGN

35. SUSTAINABLE DESIGN

36. Client Law Profit A

37. Client Law Profit A ARCHITECTURE

38. Client Law Profit Design A

39. Client Law Profit Design A

40. Client Law Profit Design A

41. Client Law Profit Design A

42. Client Law Profit Design A ARCHITECTURE !

43. Client Law Profit SA Design Environment/SD

44. Client Law Profit SA Design Environment/SD SUSTAINABLE ARCHITECTURE

45. Client Law Profit SA Design

46. Client Law Profit SA Design

47. Client Law Profit SA Design

48. Client Law Profit SA Design

49. Client Law Profit SA Design

50. Client Law Profit SA Design

51. Client Law Profit SA Design SUSTAINABLE ARCHITECTURE !

52. None

53. JM

54. OXFORD > UN JM

55. OXFORD > UN SCOE CO-OP 2001 JM

56. OXFORD > UN SCOE CO-OP 2001 RV CONSULT RESEARCH 2003

    SCIENCE P&C POLICY STRATEGY JM

57. OXFORD > UN SCOE CO-OP 2001 RV CONSULT RESEARCH 2003

    SCIENCE P&C POLICY STRATEGY RV DESIGN 2006 RTA (KTH, SURREY) GENERAL A + UD CONSULT DESIGN COLLABORATION LIFESTYLE DESIGN UPD SDUS WRITING JM

58. OXFORD > UN SCOE CO-OP 2001 RV CONSULT RESEARCH 2003

    SCIENCE P&C POLICY STRATEGY RV DESIGN 2006 RTA (KTH, SURREY) GENERAL A + UD CONSULT DESIGN COLLABORATION LIFESTYLE DESIGN UPD SDUS WRITING ⊗R/ ⊖U JM

59. ENVIRONMENT

60. None

61. E N V I R O N M E N

    T

62. E N V I R O N M E N

    T T O O L S

63. E N V I R O N M E N

    T T O O L S MATERIAL ?
64. None

65. HISTORY

66. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

67. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

68. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

69. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

70. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

71. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY

72. Pre-Enlightenment Ancients Lao Tzu, Plato, Asoka: c.500 BCE Industrial Revolution

    Romantics Muir, Ruskin, Thoreau: late 19th C Early Scientists Pinchot, Leopold, Geddes: 19th-20th 20th C Disasters Minamata Bay, Torrey Canyon, Chernobyl: 60s-80s Scientists Carson, Meadows, Commoner, Ehrlich: 60s, 70s Green Ideologues Kelly, Bahro, Porritt: 80s HISTORY
73. None

74. IDEAS

75. Lack of Harmony Separation from Nature Pollution Humankind spoiling its

    own living environment Wise-use Lack of strategy in exploiting resources Industrial Ugliness Machinery harming Nature, humankind brutalising/being brutalised Enlightenment Inverted Separation from natural systems, lack of immediate feedbacks, lack of contextual limits Hypertechnology, Systems Complexity Super-pollution, Mega-catastrophe Politico-economic ‘anthropocentrism’ (c.f. ‘geocentrism’) Defective theories of economic development IDEAS
76. None

77. POLICY

78. 19th C National parks (Yellowstone, 1872), game reserves, scientific conservation

    Post-war Some intl interest (UNSCCUR ‘49) 50s-70s Anti-pollution legislation, toxics legislation, government ministries 80s Green parties, consumer action 90s Rio (UNCED ‘92) decade, international meetings POLICY

79. 19th C National parks (Yellowstone, 1872), game reserves, scientific conservation

    Post-war Some intl interest (UNSCCUR ‘49) 50s-70s Anti-pollution legislation, toxics legislation, government ministries 80s Green parties, consumer action 90s Rio (UNCED ‘92) decade, international meetings POLICY

80. 19th C National parks (Yellowstone, 1872), game reserves, scientific conservation

    Post-war Some intl interest (UNSCCUR ‘49) 50s-70s Anti-pollution legislation, toxics legislation, government ministries 80s Green parties, consumer action 90s Rio (UNCED ‘92) decade, international meetings POLICY

81. 19th C National parks (Yellowstone, 1872), game reserves, scientific conservation

    Post-war Some intl interest (UNSCCUR ‘49) 50s-70s Anti-pollution legislation, toxics legislation, government ministries 80s Green parties, consumer action 90s Rio (UNCED ‘92) decade, international meetings POLICY
82. None

83. SCIENCE

84. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

85. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

86. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

87. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

88. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

89. Yield Resources/Media Forests (productivity, area) Fisheries (productivity, species) Minerals/Fossils (availability)

    Rangelands (cattle health/ productivity, feed sustainability, toxification) Pastures (soil depth, soil fertility, productivity, toxification): Land (urbanisation, toxification) Air (pollution) Water (freshwater stocks, pollution) Non-yield Resources Ecosystem resilience Carbon/Nitrogen/Water Cycles Climate stability Drainage Nature Species Ecosystems Biomes Aggregate Impact Eco-Footprint Environmental Space Ecosystem Health CO2e Concentration SCIENCE

90. Mandates Policy frameworks (Agenda 21), Changed mandates (GATT) Institutional development

    Government Agencies and Ministries Policies Regulatory: Preservation, Anti-pollution Fiscal: Resource-use taxes, Behaviour taxes, Funding for research Informational: consumer education/information Concepts Sustainable development

91. Mandates Policy frameworks (Agenda 21), Changed mandates (GATT) Institutional development

    Government Agencies and Ministries Policies Regulatory: Preservation, Anti-pollution Fiscal: Resource-use taxes, Behaviour taxes, Funding for research Informational: consumer education/information Concepts Sustainable development POLICY ACTION

92. Sustainable Social Successful SD

93. Sustainable Social Successful SD SD

94. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality

95. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality VISIONS

96. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality VISIONS

97. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality VISIONS

98. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality VISIONS

99. Clean by Technology Biotech, Bioremeditation, Nuclear, Pollution Capture, Mega-engineering Efficiency

    by Design Full-system design, Advanced composites, Intelligent Controls, Passive Systems Better-organised by Systems Public systems, Product-Service-Systems, Changed business models Sufficiency by Simplicity Upshift, Locality, Quality VISIONS
100. None

101. BREEAM

102. Sustainable sites (14 points) Construction Activity Pollution Prevention Plan (required)

     Site selection (1 pt) Development density and community connectivity (1 pt) Brownfield redevelopment (1 pt) Alternative transportation availability (3 pts) Public transportation access (1 pt) Bicycle storage and changing rooms (1 pt) Parking capacity and carpooling (1 pt) Reduced site disturbance (2 pt) Protect or restore open space (1 pt) Development footprint Stormwater management (2 pts) Rate and quantity (1 pt) Treatment (1 pt) Reduce heat islands (2 pts) Roof (1 pt) Non-roof (1 pt) Light pollution reduction (1 pt) Water efficiency (5 points) Water efficient landscaping (2 pt) Reduce by 50% (1 pt) No potable use or no irrigation (1 pt) Innovative wastewater technologies (1 pt) Water use reduction (2 pt) Energy and atmosphere (17 points) Fundamental commissioning (required) Minimum (code) energy performance (required) Fundamental Refrigerant Management (required) Optimize energy performance by 14% (new) or 7% (existing) buildings (2 pts, required as of June 26, 2007) Energy optimization (8 pts in addition to the 2 required above) On-site renewable energy (3 pts) Ozone depletion (1 pt) Measurement and verification (1 pt) Green power (1 pt) Materials and resources (13 points) Storage and collection of recyclables (required) Building reuse (3 pts): 75% reuse of building structure and shell excluding windows (1 pt) 100% reuse of building structure and 50% of walls, floors, ceilings (1 pt) Construction waste reuse or recycling (by weight or volume) (2 pts): 50% diversion (1 pt) 75% diversion (1 pt) Reuse of existing materials (by cost) (2 pts) 5% salvaged or refurbished materials (1 pt) 10% salvaged or refurbished materials (1 pt) Recycled content (2 pts) Criteria vary in recent versions of LEED, but depend on value of pre- and post-consumer recycled content (2 pt) Use of local materials (2 pts) Fabrication shop within 500 miles (800 km) of building site and raw materials source within 500 miles (800 km) of building site, 10% (1 pt) or 20% (+1 pt). Rapidly renewable materials (1 pt) Certified Wood (1 pt) Indoor environmental quality (15 points) Minimum indoor air quality (required) Environmental tobacco smoke control (required) Outdoor air delivery monitoring (1 pt) Increased ventilation (1 pt) Construction indoor air quality management (2 pt) Indoor chemical and pollutant source control (1 pt) Controllability of systems (2 pt) Thermal comfort (2 pt) Daylight and views (2 pt) Innovation and design process (5 points) Examples for up to four design points using steel construction include structure as finish, structure as plumbing, lightweight materials, recyclability, and potential for disassembly.

103. Sustainable sites (14 points) Construction Activity Pollution Prevention Plan (required)

     Site selection (1 pt) Development density and community connectivity (1 pt) Brownfield redevelopment (1 pt) Alternative transportation availability (3 pts) Public transportation access (1 pt) Bicycle storage and changing rooms (1 pt) Parking capacity and carpooling (1 pt) Reduced site disturbance (2 pt) Protect or restore open space (1 pt) Development footprint Stormwater management (2 pts) Rate and quantity (1 pt) Treatment (1 pt) Reduce heat islands (2 pts) Roof (1 pt) Non-roof (1 pt) Light pollution reduction (1 pt) Water efficiency (5 points) Water efficient landscaping (2 pt) Reduce by 50% (1 pt) No potable use or no irrigation (1 pt) Innovative wastewater technologies (1 pt) Water use reduction (2 pt) Energy and atmosphere (17 points) Fundamental commissioning (required) Minimum (code) energy performance (required) Fundamental Refrigerant Management (required) Optimize energy performance by 14% (new) or 7% (existing) buildings (2 pts, required as of June 26, 2007) Energy optimization (8 pts in addition to the 2 required above) On-site renewable energy (3 pts) Ozone depletion (1 pt) Measurement and verification (1 pt) Green power (1 pt) Materials and resources (13 points) Storage and collection of recyclables (required) Building reuse (3 pts): 75% reuse of building structure and shell excluding windows (1 pt) 100% reuse of building structure and 50% of walls, floors, ceilings (1 pt) Construction waste reuse or recycling (by weight or volume) (2 pts): 50% diversion (1 pt) 75% diversion (1 pt) Reuse of existing materials (by cost) (2 pts) 5% salvaged or refurbished materials (1 pt) 10% salvaged or refurbished materials (1 pt) Recycled content (2 pts) Criteria vary in recent versions of LEED, but depend on value of pre- and post-consumer recycled content (2 pt) Use of local materials (2 pts) Fabrication shop within 500 miles (800 km) of building site and raw materials source within 500 miles (800 km) of building site, 10% (1 pt) or 20% (+1 pt). Rapidly renewable materials (1 pt) Certified Wood (1 pt) Indoor environmental quality (15 points) Minimum indoor air quality (required) Environmental tobacco smoke control (required) Outdoor air delivery monitoring (1 pt) Increased ventilation (1 pt) Construction indoor air quality management (2 pt) Indoor chemical and pollutant source control (1 pt) Controllability of systems (2 pt) Thermal comfort (2 pt) Daylight and views (2 pt) Innovation and design process (5 points) Examples for up to four design points using steel construction include structure as finish, structure as plumbing, lightweight materials, recyclability, and potential for disassembly. LEED

104. 9. EQU inves 10. HEA prom NET LIVING 6 7

     8 9 10 2 3 4 5 s based ples of anet n which ead within e Earth’s One Pl courtes an initia engage specify The init represe

105. OPL 9. EQU inves 10. HEA prom NET LIVING 6

     7 8 9 10 2 3 4 5 s based ples of anet n which ead within e Earth’s One Pl courtes an initia engage specify The init represe
106. None

107. EVA

108. CONTEXT We all share the need to recognize ourselves in

     the context in which we live. Kjellgren Kaminsky collects inspiration from the unique history and soul of each new environment. These two ingredients create together with people’s specifi c needs, the context that fi nally is formed into a fi nished building.

109. CONTEXT We all share the need to recognize ourselves in

     the context in which we live. Kjellgren Kaminsky collects inspiration from the unique history and soul of each new environment. These two ingredients create together with people’s specifi c needs, the context that fi nally is formed into a fi nished building. OTHER / K&K
110. None

111. E N V I R O N M E N

     T

112. E N V I R O N M E N

     T T O O L S

113. E N V I R O N M E N

     T T O O L S MATERIAL ?

114. SUSTAINABILITY

115. None

116. 1 2 3 4

117. 1 2 3 4 P R I N C I

     P L E S

118. 1 2 3 4 P R I N C I

     P L E S S T O R I E S

119. 1 2 3 4 P R I N C I

     P L E S S T O R I E S B U I L T D E S I G N

120. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S S T O R I E S B U I L T D E S I G N

121. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S B U I L T D E S I G N

122. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S FUNCTION B U I L T D E S I G N

123. 1234

124. None

125. 1234

126. 1 MATERIAL CULTURE 2 PROBLEMS 3 SOLUTIONS 4 ENABLERS 1234

127. None

128. 0 CRITIQUE

129. BINARY DEBATE TECHNOLOGY OF SUPPLY? FORCING MASS SOCIAL CHANGE? ENVIRONMENTAL

     VS SUSTAINABLE TOTAL MATERIALISATION? CONDITIONED MATERIALISATION? DESIGN VS ENGINEERING DESIGN? CREATIVITY? HUMAN DEVELOPMENT CREATIVITY FREEDOM OBSCURITY? COHERENT STRUCTURE? MASKING OF POLITICS? SOCIAL ISSUES? APPROPRIATE RELATIONSHIP? SERIOUS TREATMENT? COST? FEASIBLE? COST EFFECTIVE? 0 CRITIQUE
130. None

131. 1 MATERIAL CULTURE

132. RESOURCES MEDIA APPLICATIONS FUNCTION 1 MATERIAL CULTURE

133. FOSSILS MINERALS BIOTA LIFESYSTEMS SUN WATER SOIL LAND SPACE FOOD

     POWER GOODS MOBILITY BUILDINGS INFRASTRUCTURE ACTIVITY VALUE EXPERIENCE WELFARE RESOURCES MEDIA APPLICATIONS FUNCTION 1 MATERIAL CULTURE
134. None

135. 2 PROBLEM

136. A BIOPHYSICAL RESOURCE LIMITS ABSORPTION (pollution, waste) STOCKS (freshwater, oil,

     minerals) SERVICES (climate, nutrient cycling, resilience) INPUTS (solar, tidal) B NATURE VULNERABILITY SPECIES ECOSYSTEMS LANDSCAPES 2 PROBLEM
137. None

138. 3 SOLUTIONS

139. A SUPPLY POLLUTION REDUCTION STOCK CONSERVATION NATURE PRESERVATION B DEMAND

     BETTER APPLICATION OF RESOURCES C ETHICS ME/US ETHICS THEM ETHICS 3 SOLUTIONS
140. None

141. 4 ENABLERS

142. A INFORMATION B PRICES C LAWS 4 ENABLERS

143. A INFORMATION B PRICES C LAWS 4 ENABLERS D QUALITY

     DESIGN, INNOVATION, NARRATIVE, VALUE
144. None

145. 1234

146. 1 MATERIAL CULTURE 2 PROBLEMS 3 SOLUTIONS 4 ENABLERS 1234

147. PRINCIPLES

148. SUPPLY DEMAND ETHICS POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

     THEM ⊖R ⊗C ⊗R ⊗N

149. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED ⊖ ⊗ ⊗ ⊗

150. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APPRECIATIVE ⊖

     ⊗ ⊗ ⊗ ⊖ ⊖

151. STORIES

152. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APRECIATIVE PRODUCTIVE

     ELEGANT LIBERATING ⊖ ⊖ ⊖ ⊖

153. SUPPLY DEMAND ETHICS MANAGED DESIGNED INFORMED SAFE EFFICIENT APRECIATIVE ABUNDANT

     FUNCTIONAL CREATIVE ⊖ ⊖ ⊖ ⊖ ⊖ ⊖

154. SUPPLY DEMAND ETHICS POLLUTION R CONSERVATION PRESERVATION BETTER APPLICATION ME/US

     THEM PRODUCTIVE ELEGANT CREATIVE

155. BUILT DESIGN

156. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS TECHS?

     METHODS? TECHS? METHODS? TECHS? METHODS? ⊖ ⊗ ⊗

157. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS !

     ? ! DESIGN? ! DESIGN? ⊖ ⊗ ⊗

158. SUPPLY MANAGEMENT DEMAND MANAGEMENT ETHICAL TRANSFORM SAFETY EFFICIENCY ETHICS !

     ? ! NO MONEY MORE LIMITS ! POLITICS ⊖ ⊗ ⊗

159. TECHNIQUES

160. SUPPLY MANAGEMENT SUPPLY MANAGEMENT SUPPLY MANAGEMENT MANAGED > SAFE >

     PRODUCTIVE MANAGED > SAFE > PRODUCTIVE MANAGED > SAFE > PRODUCTIVE POLLUTION R CONSERVATION PRESERVATION SUPPLY

161. ETHICAL TRANSFORMATION ETHICAL TRANSFORMATION INFORMED > APPRECIATIVE > CREATIVE INFORMED

     > APPRECIATIVE > CREATIVE SUFFICIENCY RESPECT ETHICS

162. DEMAND MANAGEMENT DEMAND MANAGEMENT DEMAND MANAGEMENT DEMAND MANAGEMENT DESIGNED >

     EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT DESIGNED > EFFICIENT > ELEGANT OBJECT FUNCTION USE WELFARE DEMAND

163. OBJECT OBJECT OBJECT OBJECT RESOURCE EFFICIENCY RESOURCE EFFICIENCY RESOURCE EFFICIENCY

     RESOURCE EFFICIENCY PROCESS & PRODUCT LOCAL- ISATION CYCLING SYSTEMS DURABILITY D

164. FUNCTION FUNCTION FUNCTION FUNCTIONAL EFFICIENCY FUNCTIONAL EFFICIENCY FUNCTIONAL EFFICIENCY SPATIAL

     OBJECT NEGATIVE D

165. USE USE USE USE EFFICIENCY USE EFFICIENCY USE EFFICIENCY SEQUENTL

     USE SIMULTN USE LIFESTYLE SYSTEMS D

166. WELFARE WELFARE WELFARE EFFICIENCY WELFARE EFFICIENCY SKILLS SERVICES D

167. FUNCTION

168. [NATURE’S DEFINITION OF EFFICIENCY, A PRODUCT OF EVOLUTIONARY PRESSURE, IS

     FRACTAL FORMS WHICH OPTIMISE THE RATIO BETWEEN PHOTOSYNTHETIC SURFACE AREA AND BIOMASS VOLUME]

169. SUSTAINABILITY SUPPLY DEMAND ETHICS PRINCIPLES MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

     DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits

170. SUSTAINABILITY SUPPLY DEMAND ETHICS PRINCIPLES MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

     DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota APPLICATIONS Power Housing Mobility Food Goods Infrastructure MY NEEDS THEIR NEEDS TECHNIQUES Pollution Capture Technolgy Waste Management Recapture Technology Remediation Technology Toxics Reduction Scientific 

Management Source Substitution Park Management Preservation Research Remediation & Restoration Material choices Personal reductions Process 

Efficiency Product 

Efficieny Recycled Materials Recycling Durability Localisation Simultaneous Functionality Sequential Functionality Synchronic Usage Sequential Usage User-adapting Tech User Skills Service Agents Pollution Reduction Stock Conservation Nature Protection Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency Sufficiency-­Limits Respect-Limits
171. None

172. 1 2 3 4

173. 1 2 3 4 P R I N C I

     P L E S

174. 1 2 3 4 P R I N C I

     P L E S S T O R I E S

175. 1 2 3 4 P R I N C I

     P L E S S T O R I E S B U I L T D E S I G N

176. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S S T O R I E S B U I L T D E S I G N

177. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S B U I L T D E S I G N

178. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S FUNCTION B U I L T D E S I G N

179. METHODS

180. Programme/Brief Meta Programme Economic/Political Agenda Hard Programme Buildings, Infrastructure Soft

     Programme Aesthetics, Mood, Culture Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS STRUCTURES Resource 

Efficiency Product 

Efficiency Cycling 

Systems

181. Programme/Brief Meta Programme Economic/Political Agenda Hard Programme Buildings, Infrastructure Soft

     Programme Aesthetics, Mood, Culture Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS STRUCTURES Resource 

Efficiency Product 

Efficiency Cycling 

Systems S T A N D A R D

182. Social Discourse Programme/Brief Functional Decomposition vehicle > property > food

     > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse

183. S U S T A I N A B L

     E Social Discourse Programme/Brief Functional Decomposition vehicle > property > food > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse
184. None

185. 1 2 3 4

186. 1 2 3 4 P R I N C I

     P L E S

187. 1 2 3 4 P R I N C I

     P L E S S T O R I E S

188. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S S T O R I E S

189. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S

190. 1 2 3 4 P R I N C I

     P L E S T E C H N I Q U E S M E T H O D S T O R I E S FUNCTION

191. PRACTICE

192. None

193. GOOD PRACTICE?

194. Players Grimshaw, Eden Project Arup, Dongtan Skanska, UN HQ Liebeskind,

     Freedom Tower Turbines [CANCELLED] Questions Reality vs Communication? Risk/Cost vs Benefit? Replicability? GOOD PRACTICE?

195. Players Grimshaw, Eden Project Arup, Dongtan Skanska, UN HQ Liebeskind,

     Freedom Tower Turbines [CANCELLED] Questions Reality vs Communication? Risk/Cost vs Benefit? Replicability? GOOD PRACTICE?

196. Players Grimshaw, Eden Project Arup, Dongtan Skanska, UN HQ Liebeskind,

     Freedom Tower Turbines [CANCELLED] Questions Reality vs Communication? Risk/Cost vs Benefit? Replicability? GOOD PRACTICE?

197. Players Grimshaw, Eden Project Arup, Dongtan Skanska, UN HQ Liebeskind,

     Freedom Tower Turbines [CANCELLED] Questions Reality vs Communication? Risk/Cost vs Benefit? Replicability? GOOD PRACTICE?
198. None

199. BETTER PRACTICE?

200. Players Ecolonia, Netherlands Findhorn, Scotland Slagelse, Denmark Questions Community input

     vs time/development? Scale? Aesthetic? Developer takeaways? BETTER PRACTICE?

201. Players Ecolonia, Netherlands Findhorn, Scotland Slagelse, Denmark Questions Community input

     vs time/development? Scale? Aesthetic? Developer takeaways? BETTER PRACTICE?

202. Players Ecolonia, Netherlands Findhorn, Scotland Slagelse, Denmark Questions Community input

     vs time/development? Scale? Aesthetic? Developer takeaways? BETTER PRACTICE?
203. None

204. BEST PRACTICE?

205. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?

206. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?

207. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?

208. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?

209. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?

210. Players Mata de Sesimbra, OPL/Quintain Espana Classical, Classical Renaissance Hammarby

     Sjöstad, Stockholm Ekoviikki, Helsinki Nordhavnen, Copenhagen Hyllie, Malmö Questions Risk spreading vs slow project? Public vs profit Conservation vs sustainability? Real social interest vs Leisure markets? Priority areas? BEST PRACTICE?
211. None

212. BETTER PRACTICES?

213. BETTER PRACTICES?

214. BETTER PRACTICES?

215. BETTER PRACTICES? CONTEXT We all share the need to recognize

     ourselves in the context in which we live. Kjellgren Kaminsky collects inspiration from the unique history and soul of each new environment. These two ingredients create together with people’s specifi c needs, the context that fi nally is formed into a fi nished building.

216. BETTER PRACTICES? CONTEXT We all share the need to recognize

     ourselves in the context in which we live. Kjellgren Kaminsky collects inspiration from the unique history and soul of each new environment. These two ingredients create together with people’s specifi c needs, the context that fi nally is formed into a fi nished building.

217. BETTER PRACTICES? CONTEXT We all share the need to recognize

     ourselves in the context in which we live. Kjellgren Kaminsky collects inspiration from the unique history and soul of each new environment. These two ingredients create together with people’s specifi c needs, the context that fi nally is formed into a fi nished building. 10. HE pro al d 6 7 8 9 10 2 3 4 5 One Planet Living® is based on 10 guiding principles of sustainability. The vision of One Planet Living is of a world in which people everywhere lead happy, healthy lives within their fair share of the Earth’s resources. For more information please visit www.oneplanetliving.org One P courte an init engag specif The in repres Group Estab Buildin www. www.oneplanetliving.org
218. None

219. BETTER PRACTICE?

220. Social Discourse Programme/Brief Functional Decomposition vehicle > property > food

     > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse BETTER PRACTICE?

221. Social Discourse Programme/Brief Functional Decomposition vehicle > property > food

     > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse BETTER PRACTICE? >

222. Social Discourse Programme/Brief Functional Decomposition vehicle > property > food

     > growth > mobility > space > nutrition > wealth > access accommodation health wellbeing Meta Programme Social Discourse Components Hard Programme Buildings, Infrastructure Soft Programme Aesthetics, Mood, Culture Politics Identity Inclusion Crime Environment Nature Ethics Risk Cost Pollution Reduction Stock Conservation Nature Preservation Sufficiency 

 

 Compassion S E MATERIAL SPATIAL SOCIAL PERSONAL OBJECTS ACTIONS STRUCTURES Resource 

Efficiency Functional 

Efficiency Use 

Efficiency Welfare 

Efficiency User Skills Development End-use services U Simultaneous / Sequential Spatial F Simultaneous / Sequential Object F Elimination of Negative F Process 

Efficiency Product 

Efficiency Localisation Cycling Systems Durability Simultaneous / Sequential UC Social Discourse BETTER PRACTICE? >

223. PRACTICE DEVELOPMENT

224. PRACTICE DEVELOPMENT A PROJECT REVIEW B DESIGN POLICY

225. PRACTICE DEVELOPMENT A PROJECT REVIEW B DESIGN POLICY C STAFF

     TRAINING E UNI-PROJECTS

226. PRACTICE DEVELOPMENT A PROJECT REVIEW B DESIGN POLICY C STAFF

     TRAINING E UNI-PROJECTS F DESIGN METHOD

227. SUMMARY

228. None

229. I N T R O

230. E N V I R O N M E N

     T I N T R O

231. E N V I R O N M E N

     T S U S T A I N A B I L I T Y I N T R O

232. 1234 E N V I R O N M E

     N T S U S T A I N A B I L I T Y I N T R O

233. 1234 PRINCIPLES E N V I R O N M

     E N T S U S T A I N A B I L I T Y I N T R O

234. 1234 PRINCIPLES STORIES E N V I R O N

     M E N T S U S T A I N A B I L I T Y I N T R O

235. 1234 PRINCIPLES STORIES BUILT DESIGN E N V I R

     O N M E N T S U S T A I N A B I L I T Y I N T R O

236. 1234 PRINCIPLES STORIES TECHNIQUES BUILT DESIGN E N V I

     R O N M E N T S U S T A I N A B I L I T Y I N T R O

237. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

     I R O N M E N T S U S T A I N A B I L I T Y I N T R O

238. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

     I R O N M E N T S U S T A I N A B I L I T Y I N T R O F U N C T I O N

239. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

     I R O N M E N T S U S T A I N A B I L I T Y P R A C T I C E I N T R O F U N C T I O N

240. 1234 PRINCIPLES STORIES TECHNIQUES METHODS BUILT DESIGN E N V

     I R O N M E N T REVIEW / SUMMARY S U S T A I N A B I L I T Y P R A C T I C E I N T R O F U N C T I O N

241. FUNK TION [email protected] TOWARDS A NEW DESIGN EXCELLENCE