Milestones in water reuse the best success stories
Milestones in Water Reuse: The Best Success Stories illustrates the benefits of water reuse in integrated water resources management and its role for water cycle management, climate change adaptation and water in the cities of the future. Selected case studies are used to illustrate the different ty...
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| Otros Autores: | |
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
London :
IWA Publishing
2013
2013. |
| Edición: | 1st ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009430304506719 |
Tabla de Contenidos:
- Cover
- Copyright
- Contents
- List of Contributors
- Preface
- Foreword
- Introductory Chapter
- Milestones in water reuse: main challenges, keys to success and trends of development. An overview
- References
- Part I: The role of water reuse in integrated water management and cities of the future
- Chapter 1: Water for life: diversification and water reuse as ingredients in Sydney's integrated water plan
- 1.1 Introduction
- 1.2 The 2006 Metropolitan Water Plan
- 1.3 The 2010 Metropolitan Water Plan
- 1.4 The 2014 Metropolitan Water Plan
- 1.5 Overview
- References and Further Reading
- Chapter 2: Producing designer recycled water tailored to customer needs
- 2.1 Introduction
- 2.2 Technical Challenges of Water Quality Control
- 2.3 Water Reuse Applications
- 2.4 Economics of Water Reuse
- 2.5 Human Dimension of Water Reuse
- 2.6 Conclusions
- References and Further Reading
- Chapter 3: NEWater: A key element of Singapore's water sustainability
- 3.1 Introduction
- 3.2 Technical Challenges of Water Quality Control
- 3.3 NEWater Applications
- 3.4 Human Dimension of NEWater
- 3.5 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 4: Integration of water reuse in the management of water resources in Costa Brava
- 4.1 Introduction
- 4.2 Technical Challenges of Water Quality Control
- 4.3 Water Reuse Applications
- 4.4 Economics of Water Reuse
- 4.5 Human Dimension of Water Reuse
- 4.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 5: Integration of water reuse for the sustainable management of water resources in Cyprus
- 5.1 Introduction
- 5.2 Technical Challenges in Water Quality Control
- 5.3 Water Reuse Applications
- 5.4 Economics of Water Reuse
- 5.5 Human Dimension of Water Reuse
- 5.6 Conclusions and Lessons Learned.
- References and Further Reading
- Chapter 6: Role of water reuse for Tianjin, a megacity suffering from serious water shortage
- 6.1 Introduction
- 6.2 Technical Challenges of Water Quality Control
- 6.3 Water Reuse Applications
- 6.4 Economics of Water Reuse
- 6.5 Human Dimension of Water Reuse
- 6.6 Conclusions and Lessons Learned
- References and Further Reading
- Part II: Urban use of recycled water
- Chapter 7: Semi-centralised urban water management as prerequisite for water reuse
- 7.1 Introduction
- 7.2 Technical Challenges
- 7.3 Potential Water Reuse Applications
- 7.4 Economics of Water Reuse
- 7.5 Human Dimension of Water Reuse
- 7.6 Conclusions
- References and Further Reading
- Chapter 8: The exciting challenge of water reuse in Madrid
- 8.1 Introduction
- 8.2 Technical Challenges of Water Quality Control
- 8.3 Water Reuse Applications
- 8.4 Economics of Water Reuse
- 8.5 Human Dimension of Water Reuse
- 8.6 Conclussions and Lessons Learned
- Chapter 9: A double dose of water reuse in the middle of the Pacific Ocean - how Honolulu is supplying a growing population and industry
- 9.1 Introduction
- 9.2 Technical Challenges of Water Quality Control
- 9.3 Water Reuse Applications
- 9.4 Economics of Water Reuse
- 9.5 Human Dimension of Water Reuse
- 9.6 Lessons Learned and Main Keys to Success
- References and Further Reading
- Chapter 10: The keys to success of water reuse in tourist areas - the case of Bora Bora
- 10.1 Introduction
- 10.2 Role of Water Quality and Treatment Technology for the Trust in Water Reuse
- 10.3 Water Reuse Applications
- 10.4 Economics of Water Reuse
- 10.5 Human Dimension of Water Reuse
- 10.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 11: Australia's urban and residential water reuse schemes
- 11.1 Introduction.
- 11.2 Case Studies: The Pioneering Projects
- 11.3 Case Studies: Residential Reuse Australia-Wide
- 11.4 Main Challenges and Lessons Learned
- 11.5 Overview
- References and Further Reading
- Part III: Urban water reuse: decentralised water recycling systems
- Chapter 12: Semi-decentralized water recycling in megacities: the example of Tokyo Shinjuku Area
- 12.1 Introduction
- 12.2 The Water Reuse Project in Shinjuku Area
- 12.3 Conclusions: Keys to Success of Urban Water Reuse in Tokyo
- References and Further Reading
- Chapter 13: Water reuse in the America's first green high-rise residential building - the Solaire
- 13.1 Introduction
- 13.2 Technical Challenges of Water Quality Control
- 13.3 Water Reuse Applications
- 13.4 Economics of Water Reuse
- 13.5 Human Dimension of Water Reuse
- 13.6 Conclusions and Main Keys to Success
- References and Further Reading
- Chapter 14: On-site water reclamation and reuse in individual buildings in Japan
- 14.1 Introduction
- 14.2 General Description of on-site Water Reclamation in Individual Buildings
- 14.3 Efficiency of Membrane Bioreactors used for on-site Water Reclamation in a Business Building
- 14.4 Conclusions: Keys to Success of in-building Recycling and Reuse
- References and Further Reading
- Part IV: Agricultural use of recycled water
- Chapter 15: Production of high quality recycled water for agricultural irrigation in Milan
- 15.1 Introduction
- 15.2 Technical Challenges in Water Quality Control
- 15.3 Water Reuse Applications
- 15.4 Economics of Water Reuse
- 15.5 Human Dimension of Water Reuse
- 15.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 16: Key to success of water reuse for agricultural irrigation in France
- 16.1 Introduction
- 16.2 Technical Challenges of Water Quality Control
- 16.3 Water Reuse Applications.
- 16.4 Economics of Water Reuse
- 16.5 Human Dimension of Water Reuse
- 16.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 17: Irrigation of crops in Australia
- 17.1 Introduction
- 17.2 Case studies: Irrigation of Crops in Australia
- 17.3 Guidance to Growers
- 17.4 Overview
- References and Further Reading
- Part V: Industrial use of recycled water
- Chapter 18: The role of industrial reuse in the sustainability of water reuse schemes: The example of San Luis Potosi, Mexico
- 18.1 Introduction
- 18.2 Technical Challenges of Water Quality Control
- 18.3 Water Reuse Applications
- 18.4 Economics of Water Reuse
- 18.5 Human Dimension of Water Reuse
- 18.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 19: Recycling of secondary refinery and naphtha cracker effluents employing advanced multi-barrier systems
- 19.1 Introduction
- 19.2 Technical Challenges of Water Quality Control
- 19.3 Water Reuse Applications
- 19.4 Economics of Water Reuse
- 19.5 Human Dimension of Water Recycling
- 19.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 20: High purity recycled water for refinery boiler feedwater: the RARE project
- 20.1 Introduction
- 20.2 Technical Challenges and Water Quality Control
- 20.3 Economics of Water Reuse
- 20.4 Benefits of Water Reuse
- 20.5 Conclusion: A Sustainable Solution
- Chapter 21: Closing loops - industrial water management in Germany
- 21.1 Introduction
- 21.2 Development of Industrial Water Demand in Germany
- 21.3 Drivers for Implementation of Water Saving Techniques
- 21.4 Examples of Closing Loop Cycles
- 21.5 Perspectives
- 21.6 Conlclusions and Lessons Learned
- References
- Part VI: Environmental and recreational use of recycled water.
- Chapter 22: Restoration of environmental stream flows in megacities: the examples in the Tokyo Metropolitan Area
- 22.1 Introduction
- 22.2 Nobidome Yousui/Tamagawa Jousui Project in Tokyo Metropolitan Area
- 22.3 Restortion of Jonan Three Rivers in Tokyo Metropolitan Area
- 22.4 Public Acceptance
- 22.5 Main Keys to Success
- References and Further Reading
- Chapter 23: Creation of a new recreational water environment: the Beijing Olympic Park
- 23.1 Introduction
- 23.2 Technical Challenges of Water Quality Control
- 23.3 Water Reuse Economics and Benefits
- 23.4 Human Dimension of Water Reuse
- 23.5 Conclusions
- References
- Chapter 24: Improving the air quality in Mexico City through reusing wastewater for environmental restoration
- 24.1 Introduction
- 24.2 Technical Challenges of Water Reuse and Environmental Restoration
- 24.3 Water Reuse Applications
- 24.4 Other Associated Programs
- 24.5 Institutional Framework
- 24.6 Public Acceptance and Involvement
- 24.7 Conclusions and Lessons Learned
- References and Further Reading
- Part VII: Increasing drinking water supplies
- Chapter 25: Key to success of groundwater recharge with recycled water in California
- 25.1 Introduction
- 25.2 Technical Challenges of Water Quality Control
- 25.3 Water Reuse Applications
- 25.4 Economics of Water Reuse
- 25.5 Human Dimension of Water Reuse
- 25.6 Conclusions and Lessons Learned
- References and Further Reading
- Chapter 26: Torreele: Indirect potable water reuse through dune aquifer recharge
- 26.1 Introduction
- 26.2 Technical Challenges of Water Quality Control
- 26.3 Water Reuse Application
- 26.4 Economics of Water Reuse
- 26.5 Human Dimension of Water Reuse
- 26.6 Conclusions and Lessons Learned
- References and Further Reading.
- Chapter 27: 34 Years of experience with potable water reuse in the Occoquan reservoir.
