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  • 1. RETHINK THE CITY © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 2. RETHINK THE CITY based on The Blue Economy A Report to the Club of Rome Prof. Gunter PAULI © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 3. Who?Thursday 13 October 2011
  • 4. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 5. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 6. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 7. Green Economy Blue Economy University of Linköping 13th of October 2011Thursday 13 October 2011
  • 8. Green Economy Blue Economy Expensive Subsidized Taxes University of Linköping 13th of October 2011Thursday 13 October 2011
  • 9. Green Economy Blue Economy Expensive Innovative Subsidized Competitive Taxes Jobs with ROI University of Linköping 13th of October 2011Thursday 13 October 2011
  • 10. Green Economy Blue Economy University of Linköping 13th of October 2011Thursday 13 October 2011
  • 11. Green Economy Blue Economy Protect Comply In favor or against University of Linköping 13th of October 2011Thursday 13 October 2011
  • 12. Green Economy Blue Economy Protect Regenerate Comply Entrepreneurs In favor or against Choose the best University of Linköping 13th of October 2011Thursday 13 October 2011
  • 13. © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 14. © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 15. biodegradable © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 16. biodegradable not sustainable © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 17. Sustainability is the capacity to respond to the basic needs of all ... © National Geographic © Gunter Pauli © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 18. Sustainability is the capacity to respond to the basic needs of all ... © National Geographic © Gunter Pauli © National Geographic with what we have University of Linköping 13th of October 2011Thursday 13 October 2011
  • 19. Sustainability is the capacity to respond to the basic needs of all ... © National Geographic © Gunter Pauli © National Geographic with what we have (that is the way nature works) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 20. If we only teach our children all we know University of Linköping 13th of October 2011Thursday 13 October 2011
  • 21. If we only teach our children all we know Then they can never do better University of Linköping 13th of October 2011Thursday 13 October 2011
  • 22. © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 23. Is everyone looking in the same direction? © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 24. Is everyone looking in the same direction? © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 25. Is everyone looking in the same direction? © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 26. Is everyone looking in the same direction? © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 27. Is everyone looking in the same direction? © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 28. © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 29. gravity © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 30. © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 31. © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 32. ventilation © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 33. INSPIRED by the ZEBRA Daiwa House, Sendai (Japan) © Daiwa House © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 34. INSPIRED by the ZEBRA Daiwa House, Sendai (Japan) save energy, improve productivity, increase value of the building © Daiwa House © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 35. © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 36. humidity temperature © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 37. INSPIRED by TERMITES Laggarberg School, Timrå (Sweden) © Gunter Pauli University of Linköping 13th of October 2011 University of Linköping 13th of October 2011Thursday 13 October 2011
  • 38. INSPIRED by TERMITES Laggarberg School, Timrå (Sweden) save energy, healthy children who study better, increasing the value in the area © Gunter Pauli University of Linköping 13th of October 2011 University of Linköping 13th of October 2011Thursday 13 October 2011
  • 39. Self-sufficient hospital, Gaviotas (Colombia) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 40. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 41. vegetable steel University of Linköping 13th of October 2011Thursday 13 October 2011
  • 42. © Luis Guillermo Camargo University of Linköping 13th of October 2011Thursday 13 October 2011
  • 43. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 44. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 45. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 46. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 47. WATER and RENEWABLE ENERGY © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 48. WATER and RENEWABLE ENERGY generated with © National Geographic WHAT YOU HAVE University of Linköping 13th of October 2011Thursday 13 October 2011
  • 49. The Laws of Physics University of Linköping 13th of October 2011Thursday 13 October 2011
  • 50. The Laws of Physics Water Watts/m3/sec University of Linköping 13th of October 2011Thursday 13 October 2011
  • 51. The Laws of Physics Water Watts/m3/sec Watts/m2 Solar - PV University of Linköping 13th of October 2011Thursday 13 October 2011
  • 52. The Laws of Physics Water Watts/m3/sec Watts/m2 Solar - PV Watts/m/sec Wind University of Linköping 13th of October 2011Thursday 13 October 2011
  • 53. Water is +800x more dense than air University of Linköping 13th of October 2011Thursday 13 October 2011
  • 54. Water is +800x more dense than air 15 km/hr flow of water (8 knots) equals 380 km/hr of wind University of Linköping 13th of October 2011Thursday 13 October 2011
  • 55. THE FUTURE OF HYDRO-ELECTRICITY © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 56. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure Low Speed Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 57. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 58. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 59. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure water flow Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 60. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure water flow Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 61. CONSTRICTION Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure water flow Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 62. CONSTRICTION Aaron Davidson Venturi Turbine Low Pressure Giovanni Batista Venturi High Speed High Pressure High pressure water flow Low Speed water flow Low Speed University of Linköping 13th of October 2011Thursday 13 October 2011
  • 63. River flows and tidal waves University of Linköping 13th of October 2011Thursday 13 October 2011
  • 64. River flows and tidal waves reduce the negative impact University of Linköping 13th of October 2011Thursday 13 October 2011
  • 65. River flows and tidal waves reduce the negative impact University of Linköping 13th of October 2011Thursday 13 October 2011
  • 66. River flows and tidal waves reduce the negative impact 3.8x more electricity with the same flow, no dams, co-generating University of Linköping 13th of October 2011Thursday 13 October 2011
  • 67. BHUTAN University of Linköping 13th of October 2011Thursday 13 October 2011
  • 68. THE FUTURE OF WASTE Ulsan, Korea University of Linköping 13th of October 2011Thursday 13 October 2011
  • 69. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 70. biogas University of Linköping 13th of October 2011Thursday 13 October 2011
  • 71. 100.000 population 15.000 m3 methane gaz per day or 5.5 million m3 methane gaz per year © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 72. 100.000 population 15.000 m3 methane gaz per day or 5.5 million m3 methane gaz per year how many tankers? © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 73. Municipal Waste Water Treatment University of Linköping 13th of October 2011Thursday 13 October 2011
  • 74. Municipal Waste Water Treatment a cost is converted in an income lesss taxes, carbon credits, generating energy University of Linköping 13th of October 2011Thursday 13 October 2011
  • 75. THE FUTURE OF SOLAR University of Linköping 13th of October 2011Thursday 13 October 2011
  • 76. THE FUTURE OF SOLAR based on MULTI-FUNCIONALITY University of Linköping 13th of October 2011Thursday 13 October 2011
  • 77. Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT)Traditional PhotovoltaicsTop Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) © Solarus AB University of Linköping 13th of October 2011Thursday 13 October 2011
  • 78. Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT)Traditional PhotovoltaicsTop Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) © Solarus AB University of Linköping 13th of October 2011Thursday 13 October 2011
  • 79. Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT)Traditional PhotovoltaicsTop Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) © Solarus AB University of Linköping 13th of October 2011Thursday 13 October 2011
  • 80. Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT)Traditional PhotovoltaicsTop Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) © Solarus AB University of Linköping 13th of October 2011Thursday 13 October 2011
  • 81. Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT)Traditional PhotovoltaicsTop Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) © Solarus AB University of Linköping 13th of October 2011Thursday 13 October 2011
  • 82. THE FUTURE OF LANDFILLS © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 83. THE FUTURE OF LANDFILLS Large Applications !"#$%&()*+,-./012+3+4,/01#+5&6#"+78&%0+ ,//+"&69+&(+:/+;&<=8#9+#>%?+ © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 84. Landfills University of Linköping 13th of October 2011Thursday 13 October 2011
  • 85. Landfills cost money generate income and jobs, reduce taxes, provide warm water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 86. 1,500 HA landfill space equipped with these panels © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 87. 1,500 HA landfill space equipped with these panels 3-5.000 MW free warm water © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 88. THE FUTURE OF DRINKING WATER © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 89. THE FUTURE OF DRINKING WATER based on PHYSICS © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 90. THE POWER OF THE VORTEX University of Linköping 13th of October 2011Thursday 13 October 2011
  • 91. WATER PURIFICATION University of Linköping 13th of October 2011Thursday 13 October 2011
  • 92. WATER PURIFICATION University of Linköping 13th of October 2011Thursday 13 October 2011
  • 93. WATER PURIFICATION University of Linköping 13th of October 2011Thursday 13 October 2011
  • 94. WATER PURIFICATION University of Linköping 13th of October 2011Thursday 13 October 2011
  • 95. WATER PURIFICATION no pumps University of Linköping 13th of October 2011Thursday 13 October 2011
  • 96. WATER PURIFICATION no filters no pumps University of Linköping 13th of October 2011Thursday 13 October 2011
  • 97. WATER PURIFICATION no filters no membranes no pumps University of Linköping 13th of October 2011Thursday 13 October 2011
  • 98. THE FUTURE OF INNER-CITY MANUFACTURING © National Geographic University of Linköping 13th of October 2011Thursday 13 October 2011
  • 99. THE FUTURE OF INNER-CITY MANUFACTURING based on © National Geographic LOCAL RESOURCES University of Linköping 13th of October 2011Thursday 13 October 2011
  • 100. 4kg of Ti University of Linköping 13th of October 2011Thursday 13 October 2011
  • 101. 4kg of Ti 300gr of Ti University of Linköping 13th of October 2011Thursday 13 October 2011
  • 102. 4kg Ti Ti 330gr of of powder 300gr of Ti University of Linköping 13th of October 2011Thursday 13 October 2011
  • 103. cold plasma + laser 4kg Ti Ti 330gr of of powder 300gr of Ti University of Linköping 13th of October 2011Thursday 13 October 2011
  • 104. cold plasma + laser 4kg Ti Ti 330gr of of powder 300gr of Ti x12 less material University of Linköping 13th of October 2011Thursday 13 October 2011
  • 105. cold plasma + laser 4kg Ti Ti 330gr of of powder 300gr of Ti x12 less material no water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 106. cold plasma + laser 4kg Ti Ti 330gr of of powder 300gr of Ti x12 less material no water 100% in-situ recycling University of Linköping 13th of October 2011Thursday 13 October 2011
  • 107. OUTCOMPETE CHINA cold plasma + laser 4kg Ti Ti 330gr of of powder 300gr of Ti x12 less material no water 100% in-situ recycling University of Linköping 13th of October 2011Thursday 13 October 2011
  • 108. Where do we start? University of Linköping 13th of October 2011Thursday 13 October 2011
  • 109. Where do we start? Responding to the Basic Needs of all University of Linköping 13th of October 2011Thursday 13 October 2011
  • 110. Where do we start? Responding to the Basic Needs of all Several Basic Needs Require Priority Attention Water and Energy first with Housing as the Catalyst University of Linköping 13th of October 2011Thursday 13 October 2011
  • 111. Water Energy Housing Health Food Jobs Education Where do we start? Responding to the Basic Needs of all Several Basic Needs Require Priority Attention Water and Energy first with Housing as the Catalyst University of Linköping 13th of October 2011Thursday 13 October 2011
  • 112. Has this been done? University of Linköping 13th of October 2011Thursday 13 October 2011
  • 113. Has this been done? Each vision expressed is based on hands-on experience benchmarked and proven over the years. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 114. Regenerating Land value Shift from 70% Create Empower Social Housing Self-sufficient 110,000 kids Food Security Cutting-edge Biodiversity x 3,000 gastro-intestinal to 10,000 jobs women and at $1,700 in energy and and 6,000 for villages technologies from 17 to 256 over 25 years water as commons from food waste children per unit water teachers with healthy food for Africa Has this been done? Each vision expressed is based on hands-on experience benchmarked and proven over the years. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 115. Regenerating Land value Shift from 70% Create Empower Social Housing Self-sufficient 110,000 kids Food Security Cutting-edge Biodiversity x 3,000 gastro-intestinal to 10,000 jobs women and at $1,700 in energy and and 6,000 for villages technologies from 17 to 256 over 25 years water as commons from food waste children per unit water teachers with healthy food for Africa Has this been done? Each vision expressed is based on hands-on experience benchmarked and proven over the years. For the first time these innovations are bundled in Africa in one major urban development project University of Linköping 13th of October 2011Thursday 13 October 2011
  • 116. Money Drains Out of the Area We Connect the Key Challenges University of Linköping 13th of October 2011Thursday 13 October 2011
  • 117. No Jobs Imminent Landfill Nuclear Closure Landfill Closure Closed Open Quarries Money Drains Out of the Area Drinking We Connect the Key Challenges Water Food Security Loss of Biodiversity University of Linköping 13th of October 2011Thursday 13 October 2011
  • 118. No Jobs Imminent Landfill Nuclear Closure Landfill Closure Over-capacity at industrial park Closed Open Quarries Over-capacity of Money Drains Out of the Area Drinking natural gas We Connect the Key Challenges Water generators Food Survival Security Agriculture Housing Shortage Loss of Biodiversity Costly Public Strong Electro- Transportation Magnetic Fields University of Linköping 13th of October 2011Thursday 13 October 2011
  • 119. No Jobs Imminent Landfill Nuclear Closure Landfill Closure Over-capacity at industrial park Closed Open Quarries Over-capacity of Money Drains Out of the Area Drinking natural gas We Connect the Key Challenges Water generators With a System of Solutions Food Survival Security Agriculture Housing free of subsidy needs Shortage Loss of Biodiversity Costly Public Strong Electro- Transportation Magnetic Fields University of Linköping 13th of October 2011Thursday 13 October 2011
  • 120. We implement Solutions University of Linköping 13th of October 2011Thursday 13 October 2011
  • 121. We implement Solutions that generate jobs and build social capital University of Linköping 13th of October 2011Thursday 13 October 2011
  • 122. Highest Concentration Urban Mining of Renewables for building materials in Africa using existing grid Landfill as Platform for Renewables We implement Solutions Water that generate jobs and build social capital Cycles Healthy Food Biodiversity Vertical Turbine Corridors inside Pylons University of Linköping 13th of October 2011Thursday 13 October 2011
  • 123. Highest Jobs Concentration Urban Mining Create New Industries of Renewables for building materials Responding FIRST in Africa using existing grid Landfill as Platform to local needs for Renewables Natural gas We implement Solutions generators with Water spirulina farm that generate jobs and build social capital Cycles Urban and Healthy Food Seawater Agriculture Biodiversity Electric Bus Vertical Turbine Corridors Feeder System inside Pylons University of Linköping 13th of October 2011Thursday 13 October 2011
  • 124. Highest Jobs Concentration Urban Mining Create New Industries of Renewables for building materials Responding FIRST in Africa using existing grid Landfill as Platform to local needs for Renewables Natural gas We implement Solutions generators with Water spirulina farm that generate jobs and build social capital Cycles Urban and Wescape is the Catalyst Healthy Food Seawater Designed with a Multiplier Effect Agriculture Biodiversity Electric Bus Vertical Turbine Corridors Feeder System inside Pylons University of Linköping 13th of October 2011Thursday 13 October 2011
  • 125. Wescape University of Linköping 13th of October 2011Thursday 13 October 2011
  • 126. Wescape Rainwater catchment Hydro Water Excess Power University of Linköping 13th of October 2011Thursday 13 October 2011
  • 127. Wescape Rainwater catchment Hydro Water Drinking Excess Water Power Light from flow University of Linköping 13th of October 2011Thursday 13 October 2011
  • 128. Wescape Rainwater catchment Hydro Water Wind Drinking Excess Water Power Light from flow University of Linköping 13th of October 2011Thursday 13 October 2011
  • 129. Wescape Rainwater catchment Hydro Water Wind Drinking Excess Water Power Electric Light from public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 130. Wescape Rainwater catchment Hydro Storing Water solar heat Wind Drinking Excess Water Power Solar Electric Light from electricity public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 131. Wescape Rainwater catchment Hydro Storing Water solar Building heat Wind Drinking Excess Materials Water Power Grey Solar Waste Electric Biogas Water SMW Light from electricity public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 132. Wescape Rainwater Seawater catchment Hydro Storing Farming Water solar Pulp to Protein Building heat Wind Drinking Excess Materials Water Power Grey Solar Waste Electric Biogas Water SMW Light from electricity public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 133. Wescape Rainwater DC Seawater catchment Hydro Storing fridge Farming Water solar Pulp to Protein Building Carbon heat Wind Drinking Excess Materials floor heat Water Power Grey Solar Waste Electric Biogas Water SMW Light from electricity public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 134. Wescape Rainwater Edutain- DC Seawater catchment Hydro Storing ment fridge Farming Water solar Pulp to Protein Building Carbon heat Wind Drinking Excess Materials floor heat Water Power Grey Solar Waste Electric Biogas Water SMW Light from electricity public flow transport University of Linköping 13th of October 2011Thursday 13 October 2011
  • 135. Wescape Rainwater Edutain- DC Seawater catchment Hydro Storing ment fridge Farming Water solar Pulp to Protein Building Carbon heat Wind Drinking Excess Materials floor heat Water Power Grey Solar Waste Electric Biogas Water SMW Light from electricity public flow transport JOBS HEALTH HOUSING FOOD WATER ENERGY EDUCATION Direct job generation Water, food and housing Competitive, healthy while 90% food security can be Wescape is self-sufficient Energy Potential 250MW Schooling for happiness,links Atlantis to the future plus preventive medicine building up social capital attained with 15% land in water for all purposes in and around Wescape life, responding to needs CARBON CREDIT CASH FLOW RECOVERY of TOP SOIL BIODIVERSITY SOCIAL CAPITAL ROI This project qualifies for Early, integrated and net nutrients from black and invasive non-native land value increases, above average long term at least $250 mio CEF accumulated positive c.f. grey water systems species converted to food education and jobs returns over long term University of Linköping 13th of October 2011Thursday 13 October 2011
  • 136. Basic Principles Housing and Construction University of Linköping 13th of October 2011Thursday 13 October 2011
  • 137. Basic Focus on reducing daily operational costs for energy, water, Principles food, health and education generating the multiplier effect Housing and Construction University of Linköping 13th of October 2011Thursday 13 October 2011
  • 138. Basic Focus on reducing daily operational costs for energy, water, Principles food, health and education generating the multiplier effect Housing and Construction Colombian Hospital Japanese Offices Shopping Center Harare Car Workshop in Sweden University of Linköping 13th of October 2011Thursday 13 October 2011
  • 139. Basic Focus on reducing daily operational costs for energy, water, Principles food, health and education generating the multiplier effect Housing and Construction Guesstimate The local assembly of houses must target a 3 day maximum The total costs - investment and operations will be calculated over Colombian Hospital Japanese Offices Shopping Center Harare Car Workshop in Sweden 25 years. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 140. Basic Principles Housing and Construction University of Linköping 13th of October 2011Thursday 13 October 2011
  • 141. Basic The backbone of electricity will be DC Principles Housing and Construction University of Linköping 13th of October 2011Thursday 13 October 2011
  • 142. Basic The backbone of electricity will be DC Principles Housing and Construction University of Linköping 13th of October 2011Thursday 13 October 2011
  • 143. Basic The backbone of electricity will be DC Principles Housing and Construction Guesstimate Assembly of white goods (refrigeration) based on DC under license from ITRI Taiwan Generating jobs and Representing the most ecological option Qualifies for CO2e University of Linköping 13th of October 2011Thursday 13 October 2011
  • 144. Basic The backbone of electricity will be DC Principles Housing and Construction Guesstimate Guesstimate Assembly of LED will be at Atlantis Assembly of white goods under license of DELTA Electronics (refrigeration) based on DC (Taiwan) under license from ITRI Taiwan Generating jobs and soon an Generating jobs and Representing export product for Africa the most ecological option Qualifies for CO2e Qualifies for CO2e University of Linköping 13th of October 2011Thursday 13 October 2011
  • 145. Wind Wind Wind University of Linköping 13th of October 2011Thursday 13 October 2011
  • 146. An estimated 500 XL pylons exist today within 15 km radius Wind Wind Wind University of Linköping 13th of October 2011Thursday 13 October 2011
  • 147. An estimated 500 XL pylons exist today within 15 km radius At least 2,000 additional S-L-X-XL transmission pylons will be added Wind Wind Wind University of Linköping 13th of October 2011Thursday 13 October 2011
  • 148. An estimated 500 XL pylons exist today within 15 km radius At least 2,000 additional S-L-X-XL transmission pylons will be added Wind Wind Wind 1kW 10kW-100kW 100kW-1MW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 149. An estimated 500 XL pylons exist today within 15 km radius At least 2,000 additional S-L-X-XL transmission pylons will be added Wind Wind ESKOM Wind Transfer Station 1kW 10kW-100kW 100kW-1MW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 150. An estimated 500 XL pylons exist today within 15 km radius At least 2,000 additional S-L-X-XL transmission pylons will be added Wind Wind ESKOM Wind Transfer Station Guesstimate Potential 100MW 0.01 c/kWhr. Manufactured at Atlantis under license from Iosis Qualifies for CO2e 1kW 10kW-100kW 100kW-1MW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 151. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 152. Solar electricity Solar heat University of Linköping 13th of October 2011Thursday 13 October 2011
  • 153. Heat and power with1/3 of the wafer and wiring using both sides Solar electricity Solar heat University of Linköping 13th of October 2011Thursday 13 October 2011
  • 154. Heat and power with1/3 of the wafer and wiring using both sides Sun concentration reflectors x3.5 cased in recycled carbon fiber Solar electricity Solar heat University of Linköping 13th of October 2011Thursday 13 October 2011
  • 155. Heat and power with1/3 of the wafer and wiring using both sides Sun concentration reflectors x3.5 cased in recycled carbon fiber PV Panels Solar electricity Solar Solarus PV heat Top Performance about130W/sqm Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT) Traditional Photovoltaics Top Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 156. Heat and power with1/3 of the wafer and wiring using both sides Sun concentration reflectors x3.5 cased in recycled carbon fiber PV Panels Solar electricity Solar Solarus PV heat Solar Top Performance about130W/sqm electricity Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT) Traditional Photovoltaics Top Performance 130W/sqm Heat (400W/sqm) & Power (136W/sqm) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 157. Heat and power with1/3 of the wafer and wiring using both sides Sun concentration reflectors x3.5 cased in recycled carbon fiber PV Panels Solar electricity Solar Solarus PV heat Solar Top Performance about130W/sqm electricity Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT) Guesstimate Potential 100-200MW 0.015 c/kWhr manufactured at Atlantis under license from Traditional Photovoltaics Solarus (Sweden) Top Performance 130W/sqm Heat (400W/sqm) Qualifies for CO2e & Power (136W/sqm) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 158. Heat and power with1/3 of the wafer and wiring using both sides Sun concentration reflectors x3.5 cased in recycled carbon fiber PV Panels Solar Landfill electricity Solar as base Solarus PV heat Solar station Top Performance about130W/sqm electricity Small Applications Use less silicon material Lower cost/W Hybrid Panels (PVT) Guesstimate Potential 100-200MW 0.015 c/kWhr manufactured at Atlantis under license from Traditional Photovoltaics Solarus (Sweden) Top Performance 130W/sqm Heat (400W/sqm) Qualifies for CO2e & Power (136W/sqm) University of Linköping 13th of October 2011Thursday 13 October 2011
  • 159. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 160. Building Materials Biogas Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 161. Building Materials Building Materials Grey Biogas Waste SMW Water Biogas Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 162. Building Materials Building Materials Grey Landfill Biogas Waste SMW as base Water Biogas station Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 163. Buildingorganic food waste increases biogas by factor 4 Grey water plus Materials Building Materials Grey Landfill Biogas Waste SMW as base Water Biogas station Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 164. Buildingorganic food waste increases biogas by factor 4 Grey water plus Materials Reduces load on landfill and generates qualityBuilding for land restoration sludge Materials Grey Landfill Biogas Waste SMW as base Water Biogas station Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 165. Buildingorganic food waste increases biogas by factor 4 Grey water plus Materials Reduces load on landfill and generates qualityBuilding for land restoration sludge Materials Grey Landfill Biogas Waste SMW as base Water Biogas station !"#$%& Waste !"#$%"&(%)*+$,-*"$.& SMW !#%()*#+,&&)+%*%-"."/",& Water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niversity of Linköping AA 13th of October 2011 5(6.7(89:9 :;Thursday 13 October 2011
  • 166. Buildingorganic food waste increases biogas by factor 4 Grey water plus Materials Reduces load on landfill and generates qualityBuilding for land restoration sludge Materials Grey Landfill Biogas Waste SMW as base Water Biogas station !"#$%& Waste !"#$%"&(%)*+$,-*"$.& SMW !#%()*#+,&&)+%*%-"."/",& Water !"#$%&()$*+,-#./$0)$1+0#2 !"#$%"&(%)*+$,-*"$.& Guesstimate 01*2/) 3,)/+(./ 45+(/0,) /0(-.#1 Potential 10-20MW ,3%4*.,&5 3&0#)/ 2&1.*(3$"4(!)5"6(7)#-. 0.015 c/kWhr /)),(0.1"-( !8-1$9*4(:5$&,4(;<-#."-4(=#.*1+-# !/>4???(@A((,$9-1"-#(B)&5@-(."(@5*$%$<.&( CC=D All constructed at Atlantis under 2.1"-(0."-#( !!5E1"#."-1F(D!(G<#$@.#(1&5,9-H4(CI!( GJ.1"-(.%"$B."-,(1&5,9-H4(K)),(C.1"- license from Scandinavian Biogas 1&3,4-( 6+,-#./$ !L*%#-.1-($*<5"()+(+)),(J.1"-(E(.<<#)MN( 4#.+0*/0,) A0?O <-1"(=#),3%"1( !I,,-,(1&5,9-(<#-P"#-."@-*"(.*,( Operations winter and summer +#)>(?$)+3-&1( =#),3%"$)*( %#)9-*$%(9.1(%&-.*$*9 !//(@$&&$)*(Q@A(E$)9.1(<-#(-.#(G+#)@(A( Qualified for CO2e Q@AH(1)&,(")(!7(36-@$%.& !D#),5%"$)*()+(&$R5$,(3;S T(???(")*U-.# ! V;L(W(S?O 7#8$20)().0(& ! X:L=8I(()+(X2V(A @$&&$)*(1-%5#-, ! !$9*$+$%.*"(+5#"6-#(<#)+$"(5<1$,- 6+%1("1%7"%1)!"#$%&8)*#+,&&)"&)%)7,&%/".,)/##.)9"/:)42./"*.,)"1*2/)%1()#2/*2/)%./,1%/"7,& University of Linköping AA 13th of October 2011 5(6.7(89:9 :;Thursday 13 October 2011
  • 167. Building Materials SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 168. Building Materials Building Materials Building Materials SMW SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 169. Building All white, green and brown glass is converted to building materials Materials Building Materials Building Materials SMW SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 170. Building All white, green and brown glass is converted to building materials Materials Building Materials Building Materials SMW SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 171. Building All white, green and brown glass is converted to building materials Materials Pre-fabricated, insulation, fire-safe, vermin proof, CO2 fixing, acid resistant Building Materials Building Materials SMW SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 172. Building All white, green and brown glass is converted to building materials Materials Pre-fabricated, insulation, fire-safe, vermin proof, CO2 fixing, acid resistant Building Materials Building Materials SMW SMW University of Linköping 13th of October 2011Thursday 13 October 2011
  • 173. Building All white, green and brown glass is converted to building materials Materials Building fixing, acid resistant Pre-fabricated, insulation, fire-safe, vermin proof, CO2 Materials Building Materials Building Materials SMW Biogas Waste SMW SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 174. Building All white, green and brown glass is converted to building materials Materials Building fixing, acid resistant Pre-fabricated, insulation, fire-safe, vermin proof, CO2 Materials Building Materials Landfill Building SMW as base Materials Biogas SMW station Waste SMW Water University of Linköping 13th of October 2011Thursday 13 October 2011
  • 175. Building All white, green and brown glass is converted to building materials Materials Building fixing, acid resistant Pre-fabricated, insulation, fire-safe, vermin proof, CO2 Materials Building Materials Landfill Building SMW as base Materials Biogas SMW station Waste SMW Water Guesstimate 5 million glass bottles justify a factory under license from Earth Stone USA and Åke Mård Sweden outcompeting any other building material thanks to the multi-functionality Qualifies for CO2e University of Linköping 13th of October 2011Thursday 13 October 2011
  • 176. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 177. DC fridge University of Linköping 13th of October 2011Thursday 13 October 2011
  • 178. Refrigeration is offered in all homes of the poor as a standard DC fridge University of Linköping 13th of October 2011Thursday 13 October 2011
  • 179. Refrigeration is offered in all homes of the poor as a standard starting with a simple version moving upwards to a DC system DC fridge University of Linköping 13th of October 2011Thursday 13 October 2011
  • 180. Refrigeration is offered in all homes of the poor as a standard starting with a simple version moving upwards to a DC system DC fridge University of Linköping 13th of October 2011Thursday 13 October 2011
  • 181. Refrigeration is offered in all homes of the poor as a standard starting with a simple version moving upwards to a DC system DC fridge Guesstimate 150,000 DC fridges will set a new standard complemented by water based systems locally produced under license from Emily Cummins (UK) or SunDanzer (USA) Qualified for CO2e University of Linköping 13th of October 2011Thursday 13 October 2011
  • 182. Black Nutrients Water Water for soil recovery University of Linköping 13th of October 2011Thursday 13 October 2011
  • 183. All black water is recycled per housing block - no septic tank, no sewage Black Nutrients Water Water for soil recovery University of Linköping 13th of October 2011Thursday 13 October 2011
  • 184. All black water is recycled per housing block - no septic tank, no sewage Recovery of nutrients, generating more organic matter for soil recovery Black Nutrients Water Water for soil recovery University of Linköping 13th of October 2011Thursday 13 October 2011
  • 185. All black water is recycled per housing block - no septic tank, no sewage Recovery of nutrients, generating more organic matter for soil recovery Black Nutrients Water Water for soil recovery University of Linköping 13th of October 2011Thursday 13 October 2011
  • 186. All black water is recycled per housing block - no septic tank, no sewage Recovery of nutrients, generating more organic matter for soil recovery Black Nutrients Water Water for soil recovery Guesstimate utilization of Separett toilets with Aquatron manufactured in Atlantis under license of Separett reducing water consumption 1.5 l per flush while recovering all nutrients cut residential water consumption with 40% Qualified for CO2e University of Linköping 13th of October 2011Thursday 13 October 2011
  • 187. Each week a new business model open source no commercial interest 66 cases are published in june 2012 all 100 cases www.zeri.org www.blueeconomy.de © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011
  • 188. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 189. University of Linköping 13th of October 2011Thursday 13 October 2011
  • 190. Soichiro Honda University of Linköping 13th of October 2011Thursday 13 October 2011
  • 191. Some dream to escape reality ... Soichiro Honda University of Linköping 13th of October 2011Thursday 13 October 2011
  • 192. Some dream to escape reality ... others dream to change reality forever Soichiro Honda University of Linköping 13th of October 2011Thursday 13 October 2011
  • 193. www.blueeconomy.de THANK YOU www.zeri.org © Gunter Pauli University of Linköping 13th of October 2011Thursday 13 October 2011