Verfügbarkeit: Introduction to sustainability

Introduction to sustainability: road to a better future

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Bibliographische Detailangaben
1. Verfasser:	Munier, Nolberto (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Dordrecht [u.a.] Springer 2005
Schlagworte:	Nachhaltigkeit Sustainable development Abfall Energieversorgung Umweltökonomie
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 444 S. Ill., graph. Darst.
ISBN:	140203556X 9781402035562

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adam_text	TABLE OF CONTENTS CHAPTER 1 - BASIC INFORMATION ON SUSTAINABLE ISSUES........1 .1 The purpose of this book.........................................................................1 .2 Defining sustainability...........................................................................10 .3 Weak and strong sustainability..............................................................15 .4 Sustainable development vs. economic growth.....................................16 .5 People s participation............................................................................21 1.5.1 Case study: Community participation in Albertslund - Denmark... 22 1.5.2 Case study - The will of a town - People defending their environment and health................................................................................23 .6 The ecological footprint.........................................................................24 .7 The ecological rucksack.........................................................................28 .8 Emergy accounting................................................................................30 .9 Resilience (social, economical, and political).......................................32 .10 Environmental resilience.....................................................................33 .11 Externalities.........................................................................................34 .12 Capital.................................................................................................35 .13 Local Agenda 21..................................................................................36 .14 The Bellagio principles........................................................................37 Internet references for Chapter 1....................................................................37 CHAPTER 2 - THE CULTURE OF WASTE...............................................43 2.1 Introduction...........................................................................................43 2.2 First part: Current generation and treatment of waste...........................43 2.2.1 What is waste?.................................................................................43 2.2.2 Which are the components of waste?...............................................46 2.2.3 Where is waste generated?...............................................................49 2.2.4 How is waste disposed of or treated?...............................................52 2.2.5 Waste and its effect on the environment...........................................57 2.3 Hazardous waste....................................................................................59 2.3.1 Vitrification......................................................................................59 2.4 Recycling...............................................................................................60 2.5 Incinerators............................................................................................60 2.5.1 Case study: Heat from incinerator and wind energy for Goteborg, Sweden.........................................................................................................63 2.6 Second part: Decreasing waste generation............................................64 2.7 Nature s closed waste cycle...................................................................64 2.8 Society s open path for wastes..............................................................65 2.9 Ecosystem metabolism and metabolism in society...............................68 2.10 Why is waste produced?.......................................................................68 2.10.1 Case study: Generating light out of garbage, Groton, the USA.....69 2.11 What can be done to correct this situation?.........................................72 2.12 Conservation of resources...................................................................73 vi Introduction to Sustainability: Road to a Better Future 2.12.1 Energy reduction............................................................................75 2.12.2 Controlling water usage.................................................................77 2.12.3 The use of water for industry and the reuse of wastewater............78 2.12.3.1 Examples to follow in water reuse....................................79 2.12.3.2 Case study: Wastewater contributes to maintain a renewable resource: The ingenuity of a town, Clearlake, the USA.. 80 2.12.4 Keeping rivers clean......................................................................82 2.12.5 Recovering energy from tires.........................................................85 2.12.6 Savings in the supply chain............................................................86 2.13 Actions to reduce consumption...........................................................90 2.14 Working together.................................................................................94 Internet references for Chapter 2....................................................................98 CHAPTER 3 - SUSTAINABILITY IN THE BUILT ENVIRONMENT... 105 3.1 Sustainability at the individual level...................................................105 3.2 Sustainability in the household............................................................106 3.2.1 Water use in the household............................................................107 3.2.2 Solid waste in the household..........................................................107 3.2.2.1 An example to follow: Recovery of carpets material.......110 3.2.3 Energy uses in the household.........................................................111 3.2.4 Land use for the household.............................................................112 3.3 Urban transportation............................................................................113 3.3.1 Case study. The role of transportation in sustainable Curitiba, Brazil..........................................................................................................114 3.4 Upgrading slums in cities....................................................................117 3.5 Environmental sustainability...............................................................120 3.5.1 Air in a sustainable environment..................................................120 3.5.2 Water in a sustainable environment..............................................124 3.5.3 Soil in a sustainable environment..................................................126 3.6 Team efforts toward sustainable environment.....................................128 3.7 Sustainability in public administration and in urban life.....................128 3.8 Sustainability in public health.............................................................131 3.9 Sustainability in education..................................................................132 3.10 Sustainability in commerce...............................................................134 3.11 Reducing energy consumption..........................................................137 3.11.1 Reducing energy consumption in the urban space.......................140 3.11.2 Reducing land use........................................................................142 Internet references for Chapter 3..................................................................142 CHAPTER 4 - INDUSTRIAL APPROACH TO SUSTAINABILITY......149 4.1 Sustainability in industry......................................................................149 4.1.0.1 Reductions in contamination.............................................149 4.1.0.2 Cleaner Production and other approaches.........................151 4.1.0.3 Waste reduction.................................................................151 Nolberto Munier vii 4.1.0.4 Reducing rejection.............................................................154 4.1.0.5 Reengineering....................................................................154 4.1.0.6 Life Cycle Assessment (LCA)...........................................158 4.1.0.7 Input-Output model...........................................................159 4.1.0.8 Environmental Input/Output model...................................161 4.1.1 Industrial ecology (IE)...................................................................164 4.1.1.1 Eco-efficiency....................................................................166 4.1.2 Industrial metabolism.....................................................................166 4.1.3 Materials flow analysis..................................................................168 4.1.4 Industrial integration......................................................................171 4.1.4.1 Case study: Industrial integration, Kalundborg, Denmark...........................................................................................172 4.1.4.2 Case study: A metallurgical process using the thermal content of flue gas for heating and to extract commercial products. 173 4.1.4.3 Case study: Generation of electricity by using residues from other industries. The case of Belize.......................................174 4.1.5 Dematerialization...........................................................................175 4.1.6 Design for the environment (DfE).................................................177 4.1.7 Indicators.......................................................................................177 4.1.8 Waste exchanges............................................................................178 4.1.9 Comparison of methodologies.......................................................179 4.1.10 Recycling in industry...................................................................180 4.1.11 Conclusions on industry...............................................................184 4.2 Sustainability in transportation............................................................187 4.2.1 Case study: The Transmilenio bus system in Bogota, Colombia... 198 4.3 Sustainability in agriculture.................................................................200 4.4 Forestry sustainability.........................................................................202 4.5 Sustainability in the construction industry..........................................203 4.5.1 Comparison between singles dwellings and multi-family buildings..............................................................................205 4.5.2 Case study: Sustainability in paradise - The Maho Bay resort complex, Virgin Islands, USA...................................................................209 Internet references for Chapter 4..................................................................212 CHAPTER 5 - ENERGY SUSTAINABILITY............................................219 5.1 Introduction.........................................................................................219 5.2 Brief technical information on energy conversion equipment............223 5.2.1 Coal-fired, gas-fired or oil-fired power plants...............................223 5.2.2 Nuclear power plants.....................................................................224 5.2.3 Gas turbines...................................................................................224 5.2.4 Wind turbines.................................................................................224 5.2.5 Diesel engines................................................................................225 5.2.6 Hydropower plants.........................................................................225 5.2.7 Biomass..........................................................................................225 viii Introduction to Sustainability: Road to a Better Future 5.2.8 Geothermal.....................................................................................227 5.2.8.1 Heat pumps........................................................................227 5.2.8.2 Geothermal energy............................................................231 5.3 Non-conventional sources for energy generation.................................233 5.3.1 Wind energy...................................................................................234 5.3.2 Photovoltaics (PV).........................................................................238 5.3.2.1 Case study: 1 MW decentralized and building integrated PV system in a new housing area, Amersfoort, the Netherlands......241 5.3.2.2 Case study: Solar modules made integral to hypermarket roof- Tampere, Finland....................................................................241 5.3.3 Solar collectors..............................................................................242 5.3.4 Biomass..........................................................................................243 5.3.4.1 Methanol............................................................................244 5.3.4.2 Ethanol...............................................................................245 5.3.4.3 Biodiesel............................................................................245 5.3.4.4 Methane.............................................................................245 5.3.4.5 Pyrolisis.............................................................................247 5.3.5 Fuel cells.........................................................................................247 5.3.5.1 The fuel cell in automobiles..............................................248 5.3.5.2 PAFC - Phosphoric acid fuel cell......................................252 5.3.5.3 PEM - Proton exchange membrane..................................253 5.3.5.4 MCFC - Molten carbonate................................................253 5.3.5.5 SOFC - Solid oxide...........................................................253 5.3.5.6 AFC - Alkaline..................................................................254 5.3.5.7 DMFC - Direct methanol fuel cells..................................254 5.3.5.8 Regenerative......................................................................255 5.3.6 The sea as a source of energy.......................................................255 Internet references for Chapter 5..................................................................258 CHAPTER 6 -MEASURING SUSTAINABILITY....................................265 6.1 Types of indicators..............................................................................265 6.2 Approach for choosing indicators........................................................267 6.3 Sustainable vs. common indicators.....................................................268 6.4 Indicator uses.......................................................................................269 6.5 Indicator linkages................................................................................274 6.6 Integration of sustainable indicators....................................................275 6.7 Weight of indicators............................................................................276 6.8 The choice of indicators......................................................................277 6.9 Multipliers...........................................................................................281 6.10 Framework for indicators..................................................................284 6.11 Thresholds.........................................................................................286 6.12 Carrying capacity...............................................................................287 6.12.1 Carrying capacity in the environment..........................................288 6.12.2 Carrying capacity in the social fabric..........................................290 Nolberto Munier ix 6.12.3 Carrying capacity in the economy...............................................291 6.13 Selection of a set of final indicators..................................................293 6.14 Monitoring progress..........................................................................294 6.15 Indicators for the city..........................................................................295 6.15.1 Case study: Selection of indicators for the city of Guadalajara, Mexico.......................................................................................................303 Internet references for Chapter 6..................................................................309 CHAPTER 7 - SUSTAINABLE IMPACT ASSESSMENT (SulA)...........315 7.1 Urban and regional sustainability........................................................315 7.1.1 Assets inventory.............................................................................316 7.1.2 The baseline concept......................................................................316 7.2 Agreeing on the goal...........................................................................320 7.3 Understanding the problem.................................................................322 7.4 Resources inventory............................................................................323 7.5 Plan to accomplish the objective.........................................................326 7.6 People s opinion..................................................................................326 7.7 Criteria and indicators to gauge projects.............................................328 7.8 Application example: A community looks for a sustainable energy option.................................................................................................331 7.8.1 Goals..............................................................................................332 7.8.2 Resources inventory.......................................................................332 7.8.3 Criteria...........................................................................................333 7.8.4 Criteria weights...............................................................................337 7.8.5 Threshold selection........................................................................337 7.8.6 Gathering the information.............................................................339 7.8.7 Coefficients....................................................................................340 7.8.8 Alternatives selection.....................................................................341 7.8.9 Solving the problem.......................................................................341 7.8.10 Objective of this exercise.............................................................349 7.8.11 The database................................................................................350 7.8.12 Conclusion...................................................................................355 Internet references for Chapter 7..................................................................356 CHAPTER 8: CASE EXAMPLE - A COMMUNITY IN SEARCH OF ITS FUTURE...............................................................................................359 8.1 Background information for a process................................................359 8.2 Introduction to the sustainable initiative for a community..................363 8.2.1 The system and the process.............................................................365 8.3 The process..........................................................................................366 A. Create an agency to be in charge of this whole project......................366 B. Make an inventory of assets and problems, and determine general orientation and sources of information......................................................366 C. Determine a general goal and establish a time limit..........................368 x Introduction to Sustainability: Road to a Better Future D. Establish definite objectives...............................................................369 E. Create work commissions and establish responsibilities....................370 F. Set up measures, actions, plans and projects to be executed to accomplish the objectives..........................................................................370 G. Determine type of indicators needed.................................................375 H. Choose indicators to measure progress of actions in (F) and of targets and goals established......................................................................375 I. Develop a schedule detailing on a bar chart each action, from start and finish, listed in (F), including their interrelationships and sequence... 379 J. Determine the economic impacts that tourism and the other undertakings will have on the economy, the environment and society......380 8.4 Impacts created by tourism..................................................................380 8.5 How to measure impacts.....................................................................385 8.6 Conclusions from studies....................................................................387 K. Establish a reporting mechanism to communicate results to people and for feedback.........................................................................................389 Internet references for Chapter 8..................................................................390 APPENDIX..................................................................................................393 A. 1 The Zeleny method for determining weights......................................395 A.2 Determination of Return on Investment and Net Present Value........399 A.3 A guide to strategic planning..............................................................402 A.4 Visualizing progress towards sustainability goals..............................406 A.5 Life Cycle Assessment (LCA).............................................................410 A.5.1 Example of application in industrial complex..............................411 A.6 Regression analysis for weights determination..................................415 A.7 Discharges and their effect on the environment..................................421 Internet references for Appendix..................................................................425 GLOSSARY.................................................................................................427 BIBLIOGRAPHY........................................................................................435 INDEX..........................................................................................................439
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spellingShingle	Munier, Nolberto Introduction to sustainability road to a better future Nachhaltigkeit Sustainable development Nachhaltigkeit (DE-588)4326464-5 gnd Abfall (DE-588)4000098-9 gnd Energieversorgung (DE-588)4014736-8 gnd Umweltökonomie (DE-588)4061638-1 gnd
subject_GND	(DE-588)4326464-5 (DE-588)4000098-9 (DE-588)4014736-8 (DE-588)4061638-1
title	Introduction to sustainability road to a better future
title_auth	Introduction to sustainability road to a better future
title_exact_search	Introduction to sustainability road to a better future
title_full	Introduction to sustainability road to a better future by Nolberto Munier
title_fullStr	Introduction to sustainability road to a better future by Nolberto Munier
title_full_unstemmed	Introduction to sustainability road to a better future by Nolberto Munier
title_short	Introduction to sustainability
title_sort	introduction to sustainability road to a better future
title_sub	road to a better future
topic	Nachhaltigkeit Sustainable development Nachhaltigkeit (DE-588)4326464-5 gnd Abfall (DE-588)4000098-9 gnd Energieversorgung (DE-588)4014736-8 gnd Umweltökonomie (DE-588)4061638-1 gnd
topic_facet	Nachhaltigkeit Sustainable development Abfall Energieversorgung Umweltökonomie
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