SUSTAINABLE DESIGN FOR MONDAY MORNING

Transcript

1. SUSTAINABLE DESIGN MANOOCHEHRI | RESOURCE VISION DDA BAR | 280110

   | BYSTED CPH

2. FOR MONDAY MORNING SUSTAINABLE DESIGN MANOOCHEHRI | RESOURCE VISION DDA

   BAR | 280110 | BYSTED CPH
3. None

4. P O L I T I C S

5. P O L I T I C S S C

   I E N C E

6. P O L I T I C S S C

   I E N C E P R I N C I P L E S

7. P O L I T I C S S C

   I E N C E P R I N C I P L E S D E S I G N S

8. P O L I T I C S S C

   I E N C E P R I N C I P L E S D E S I G N S A C T I O N S

9. JM

10. None

11. JM

12. OXFORD > UN JM

13. OXFORD > UN SCOE CO-OP 2001 JM

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

    SCIENCE P&C POLICY STRATEGY JM

15. 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

16. POLITICS

17. None

18. HAPPY YVO

19. None

20. HAPPY COPENHAGEN

21. HAPPY COPENHAGEN

22. None

23. SAD YVO

24. None

25. SAD COPENHAGEN

26. SAD COPENHAGEN

27. None

28. POLICY HISTORY

29. 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 HISTORY

30. 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 HISTORY

31. 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 HISTORY

32. 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 HISTORY
33. None

34. POLICY CONTENT

35. 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 CONTENT

36. Sustainable Social Successful SD

37. Sustainable Social Successful SD SD

38. None

39. SAD SAD SAD

40. SAD SAD SAD

41. SAD SAD SAD

42. None

43. SCIENCE

44. None

45. SCIENCE

46. 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

47. 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

48. 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

49. 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

50. 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

51. 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
52. None

53. PRINCIPLES

54. 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

55. 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

56. 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

57. 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

58. 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

59. 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
60. None

61. SOLUTION TYPES

62. A SUPPLY POLLUTION REDUCTION STOCK CONSERVATION NATURE PRESERVATION B APPLICATIONS

    BETTER APPLICATION OF RESOURCES C BEHAVIOUR ME/US ETHICS THEM ETHICS SOLUTION TYPES
63. None

64. N

65. NATURAL RESOURCES N

66. NATURAL RESOURCES N H

67. NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

68. NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

69. NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

70. ⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

71. ⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS N H

72. ⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊗R N H

73. ⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊗R N H

74. ⊖R NATURAL RESOURCES ⊗C BUILT DESIGN/ PRODUCTS ⊗R N H

75. ⊖R NATURAL RESOURCES BUILT DESIGN/ PRODUCTS ⊖U ⊗R N H

76. None
77. None

78. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM

79. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM

80. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM

81. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM ⊖R

82. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM ⊖R⊗N

83. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM ⊖R ⊗R ⊗N

84. SUPPLY APPLICATIONS BEHAVIOUR POLLUTION MIN PRESERVATION CONSERVATION BETTER APPLICATION ME/US

    THEM ⊖R ⊗C ⊗R ⊗N

85. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED ⊖ ⊗ ⊗ ⊗

86. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED SAFE EFFICIENT APPRECIATIVE ⊖

    ⊗ ⊗ ⊗ ⊖ ⊖

87. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED SAFE EFFICIENT APRECIATIVE PRODUCTIVE

    ELEGANT LIBERATING ⊖ ⊖ ⊖ ⊖

88. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED TECHS? METHODS? TECHS? METHODS?

    TECHS? METHODS? ⊖ ⊗ ⊗

89. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED ! ? ! DESIGN?

    ! DESIGN? ⊖ ⊗ ⊗

90. SUPPLY APPLICATIONS BEHAVIOUR MANAGED DESIGNED INFORMED ! ? ! NO

    MONEY MORE LIMITS ! POLITICS ⊖ ⊗ ⊗
91. None

92. H N p c

93. H N p c

94. H N p c METABOLISM

95. H N p c METABOLISM

96. H N p c METABOLISM RECYCLING

97. H N p c METABOLISM RECYCLING

98. H N p c METABOLISM R E S I L

    I E N C E RECYCLING

99. H N p c METABOLISM R E S I L

    I E N C E RECYCLING

100. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E RECYCLING

101. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E RECYCLING

102. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING RECYCLING

103. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING RECYCLING

104. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING SERVICE-USE RECYCLING

105. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E BIOCYCLING SERVICE-USE RECYCLING

106. H N p c METABOLISM SYMBIOSIS R E S I

     L I E N C E SOCIETY LIFESTYLES INFRASTRUCTURE BUILT ENVIRONMENT CITIES BIOCYCLING SERVICE-USE RECYCLING

107. DESIGN

108. Clean by Technology Efficiency by Design Better-organised by Systems Sufficiency

     by Simplicity VISIONS

109. SUPPLY RESOURCE FUNCTIONAL USE WELFARE BEHAVIOUR EFFICIENCY PRINCIPLES

110. None
111. None

112. SUPPLY & BEHAVIOUR

113. None
114. None
115. None

116. RESOURCE EFFICIENCY

117. None
118. None

119. FUNCTIONAL EFFICIENCY

120. None

121. USE EFFICIENCY

122. None
123. None
124. None
125. None

126. USE / WELFARE EFFICIENCY

127. None

128. DESIGN PRINCIPLES for SUSTAINABLE LIFESTYLES

129. USE EFFICIENCY WELFARE EFICIENCY | BETTER USE WELFARE EFFICIENCY |

     QUALITY
130. None
131. None
132. None
133. None
134. None

135. FUNCTIONAL SURFACE

136. FUNCTIONAL SURFACE

137. FUNCTIONAL SURFACE

138. FUNCTIONAL SURFACE

139. FUNCTIONAL SURFACE

140. None
141. None
142. None
143. None

144. INEFFICIENT USE

145. INEFFICIENT USE

146. INEFFICIENT USE

147. INEFFICIENT USE

148. INEFFICIENT USE EFFICIENT USE

149. INEFFICIENT USE EFFICIENT USE

150. INEFFICIENT USE EFFICIENT USE

151. INEFFICIENT USE EFFICIENT USE

152. None
153. None

154. SHARING

155. SHARING

156. SHARING

157. SHARING ACCESS

158. SHARING ACCESS CONSUMPTION SYSTEM

159. SHARING ACCESS CONSUMPTION SYSTEM

160. EFFICIENT USE BETTER USE QUALITY

161. None
162. None

163. USE EFFICIENCY

164. USE EFFICIENCY

165. None

166. BETTER USE

167. BETTER USE

168. None

169. QUALITY

170. QUALITY

171. None

172. DESIGN PRINCIPLES for SUSTAINABLE LIFESTYLES

173. USE EFFICIENCY WELFARE EFICIENCY | BETTER USE WELFARE EFFICIENCY |

     QUALITY

174. GRAPHICS!

175. None
176. None

177. ACTION

178. resource vision design | analysis | creativity

179. ?!

180. Sustainable Social Successful SD

181. Sustainable Social Successful SD ??

182. SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

     DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight 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

183. SUSTAINABILITY SUPPLY APPLICATIONS BEHAVIOUR CONCEPTS MATERIAL CLEAN ABUNDANT CONTROLLED EFFICIENT

     DESIGNED NETWORKED SKILLED MEDIA Soil Space Land Water RESOURCES Fossils Life-systems Minerals Biota Sunlight 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

184. ACTION STEPS

185. DECIDE PRINCIPLES VISION ROLE ACTION STEPS

186. DECIDE PRINCIPLES VISION ROLE DEVELOP EXPERTISE METHOD BRAND ACTION STEPS

187. DECIDE PRINCIPLES VISION ROLE DEVELOP EXPERTISE METHOD BRAND DELIVER VALUE

     EXPERIENCES CHANGE ACTION STEPS

188. FOR MONDAY MORNING SUSTAINABLE DESIGN [email protected] DDA BAR | 280110

     | BYSTED CPH