Keywords:
Water-supply.
;
Electronic books.
Type of Medium:
Online Resource
Pages:
1 online resource (495 pages)
Edition:
1st ed.
ISBN:
9783030014889
Series Statement:
Future City Series ; v.12
URL:
https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=5646095
DDC:
333.91
Language:
English
Note:
Intro -- Preface -- Book Abstract -- Contents -- Contributors -- Part I: Innovative Technologies and Implementation: Urban Planning and Urban Water Management -- Urban Stormwater Management and Sponge City Concept in China -- 1 Introduction -- 2 Sponge City and Urban Stormwater Management -- 3 Framework and Main Components of Sponge City -- 3.1 Components and Goals -- 3.2 Stormwater Management Criterion -- 3.3 Development and Implementation -- 3.4 Policy and Regulations -- 4 Conclusions -- References -- Maintenance and Safety of Sponge City Infrastructure -- 1 Introduction -- 2 Implementation of Sponge City Infrastructure -- 2.1 Scope of Sponge City Elements and Functions -- 2.2 Individual Components Within Sponge Cities -- 2.2.1 Some Illustrative Examples from Sponge City Implementation in China -- 2.3 Further Positive and Negative Impacts of Sponge City Implementation -- 2.4 Lessons Learnt So Far -- 3 Operation and Maintenance Issues and Challenges -- 3.1 Local Climate and Extreme Weather Conditions -- 3.2 Appropriateness of Technical and Biological Design -- 3.3 Deficient or Unsuitable Operation and Maintenance -- 4 Maintenance: Strategies and Best Practice for Sponge Cities -- 4.1 Eligible Maintenance Strategies -- 4.2 Basic Considerations for the Maintenance Strategy of Sponge Cities -- 4.3 Best Maintenance Practice for Sponge Cities -- 4.4 Examples for Best Maintenance Practice -- 5 Costs for Implementation and Maintenance of Sponge Cities -- 5.1 Investment Costs of Implementing the Sponge City Concept -- 5.2 Cost for Sponge City Maintenance -- 6 Conclusions -- References -- Future-oriented Strategic Planning of Wastewater Treatment Plants -- 1 Introduction -- 2 Overview of Traditional WWTP Planning Methods -- 3 Main Principles of a Future-Oriented Strategic Planning Process -- 4 Overview of Potential Influencing Factors -- 5 Summary.
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References -- Part II: Innovative Technologies and Implementation: Drinking Water Supply -- Urban Drinking Water Challenges and Solutions: Energy Nexus -- 1 Introduction -- 2 Energy Use for Water Supply to Urban Areas of China -- 2.1 Energy Use for Water Sourcing and Transfer in China -- 2.2 Energy Use for Water Treatment in China -- 2.3 Energy for Distributing Centrally in Cities -- 2.4 Energy for Pumping Water Within High-Rises -- 2.5 Comparison of Energy Use Along the Water Supply Process and Suggestions on Reducing Energy Use -- 3 Impact of Urban Spatial Characteristics on Energy Use for Water Supply -- 3.1 China's Urbanization and Construction of Water Distribution Networks -- 3.2 Energy Use for Water Supply -- 3.3 Urban Spatial Characteristics -- 3.4 Impact of Urban Spatial Characteristics on Energy Use for Water Supply -- 3.4.1 Horizontal Characteristics and Energy Use for Municipal Water Supply -- 3.4.2 Vertical Characteristics and Energy Use for Secondary Water Supply -- 3.4.3 Total Energy Use for Water Supply -- 3.5 How to Reduce Energy Use for Water Supply When Laying Out a City -- References -- Fostering Water Treatment in Eutrophic Areas: Innovative Water Quality Monitoring, and Technologies Mitigating Taste & -- Odor Problems Demonstrated at Tai Hu -- 1 Introduction -- 2 Analysis of Pesticides and Emerging Pollutants -- 3 Analysis of Antibiotic Resistance Genes -- 4 Studies into Taste and Odor (T& -- O) Compounds -- 4.1 Composition of Raw Water from Tai Hu -- 4.2 Algae Under Ozone Stress -- 4.3 Removal of Algae by Ultrafiltration -- 4.4 Combination of Ultrafiltration and Ozonation/Chlorination -- 5 Outlook -- References -- Part III: Innovative Technologies and Implementation: Urban Drainage and Rainwater Management -- Preventive and Customized Maintenance of Underground Water Infrastructure -- 1 Maintenance.
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1.1 Definition and Necessity -- 1.2 Preventive and Customized Maintenance: Goals -- 2 Current Situation in Germany and China -- 2.1 Current Situation in Germany -- 2.1.1 Sewer Length -- 2.1.2 Sewer Maintenance Departments -- 2.1.3 Regulations on Maintenance Work and Its Frequency -- 2.1.4 Status Quo of Sewer Networks and the Maintenance of Sewer Systems -- 2.2 Current Situation in China -- 2.2.1 Sewer Length -- 2.2.2 Responsible Departments of Sewer Maintenance -- 2.2.3 Chinese Regulations and Legislation Regarding Sewer Systems -- 2.2.4 Status Quo of Sewer Networks and Maintenance of Sewer Systems -- 2.2.5 Political Requirements -- 3 Maintenance Optimization -- 3.1 Goals of Maintenance Optimization -- 3.2 Maintenance-Oriented Planning -- 3.3 Procedure of Maintenance Optimization -- 4 Conclusion -- References -- Implementing Real Time Control Systems to Minimize Emissions from the Sewer System -- 1 Introduction -- 2 Main Principles of Real-Time Control in Sewer Systems -- 2.1 Definition and Key Terms -- 2.2 Control Type -- 2.3 Control Objectives, Fundamental Strategies and Control Algorithms -- 3 German Guideline Documents -- 4 Case Study from Germany: City of Hildesheim -- 4.1 Control System Design and Control Algorithm -- 4.2 Catchment Area of Hildesheim -- 4.3 Simulation Study and Proof of Pollution Reduction -- 4.4 Implementation of the ADESBA RTC Module at Hildesheim -- 5 Conclusions -- References -- Wetland Ecological Restoration Using Near-Natural Method -- 1 Introduction -- 2 Why Not Pure-Natural? -- 3 Differences with Constructed Wetland -- 4 Pseudo-Ecological Engineering -- 4.1 Coarse and Simple Repetition -- 4.2 Against the Brachistochrone Curve -- 4.3 Dike Construction -- 4.4 Excessive Sediment Dredging -- 4.5 Unscientific Plant Selection -- 5 A Case Study on Wetland Restoration Using the Near-Natural Method.
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5.1 Ecological Restoration Objectives of the Zhushanhu Wetland -- 5.2 Design Principles -- 5.2.1 Design Restoration Steps Based on Brachistochrone Curve -- 5.2.2 Self-Organization Principle -- 5.2.3 Design Principle of Ecological Landscapes -- 5.3 Engineering Practice with the Near-Natural Method -- 5.3.1 Basal Morphology Reforming -- 5.3.2 Plant Species Selection and Configuration -- 5.3.3 Biomass and Species Management Based on Food Webs -- 5.4 Ecological Restoration Effect -- 5.4.1 Water Quality -- 5.4.2 Plant Biodiversity -- 5.4.3 Ecological Landscape -- 6 Conclusion -- References -- Urban Flood Prevention -- 1 Introduction -- 2 Pluvial Flood Risk Management -- 3 Hazard and Risk Analyses -- 3.1 Analysis of Flood Hazard -- 3.1.1 GIS-Based Flow Path Analysis -- 3.1.2 Simplified Flood Computation -- 3.1.3 2D Flood Simulations -- 3.1.4 Evaluation and Classification of Flood Hazards -- 3.2 Analysis and Assessment of Pluvial Flood Risks -- 4 Precautionary Measures -- 4.1 Infrastructure-Related Precautionary Measures -- 4.2 Property and Building-Related Precautionary Measures -- 5 Conclusion and Outlook -- References -- Urban Pipe Assessment Method and Its Application in Two Chinese Cities -- 1 Sewer Pipes in China and Assessment Using Fuzzy Mathematic Methods -- 1.1 Sewer Pipes in China -- 1.2 Assessment Method Based on Fuzzy Mathematic Method -- 1.2.1 Defect Coding, Identification, and Damage Degree Classification -- 1.2.2 Hierarchical Structure Establishment -- 1.2.3 Weight of Defects -- 1.2.4 Expression of the Result -- 2 Sewer Pipe Inspection in Yixing and Adjustment for the Assessment Method -- 2.1 Introduction for Yixing -- 2.2 Establishment of Standardized Inspection Records and Quantitative Method -- 2.2.1 Inspection Records -- 2.2.2 Extraction of Image of Defects -- 2.2.3 Quantitative Calculation of Pipeline Defects.
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2.2.4 Pipeline Defect Record Sheet -- 2.3 Application in Yixing City -- 2.3.1 Pipeline Dynamic Management Model -- 3 Sewer Pipe Inspection and Analysis in Wuxi City -- 3.1 Data Description and Analysis -- 3.1.1 Describing the Data -- 3.1.2 Analysis Methods -- 3.2 Interrelations Between Sewer Pipe Properties and Sewer Pipe Conditions -- 3.2.1 Interrelations Between Single Properties and Sewer Pipe Conditions -- 3.2.2 Interrelations Between Multiproperties and Sewer Pipe Condition -- 4 Summary -- References -- Part IV: Innovative Technologies and Implementation: Wastewater Disposal -- Special Issues of Wastewater Management in China -- 1 Introduction -- 2 Current Challenges for Wastewater Management in China -- 3 Improvement of Sewer Systems and Stormwater Facilities -- 4 Reduction of Extraneous Water -- 5 Decentralized or Semi-decentralized Wastewater Management -- 6 Industrial Wastewater -- References -- Part V: Urban Water Governance: Overarching and Methodological Aspects -- Urban Water Governance in Europe and in China: Key Challenges, Benchmarks and Approaches -- 1 Introduction -- 2 The Factual Challenges and Differences of Urban Water Governance in China and Germany - In a Nutshell -- 2.1 Water Safety and Sufficient Water Supply -- 2.2 Sanitation and Sound Waste Water Management -- 2.3 Rainwater and Urban Flood Risk Management -- 2.4 Good Water Quality and Healthy Aquatic Ecology -- 2.5 Integrated Water Resource Management -- 3 Urban Water Governance in Comparative Assessment: Conceptual Frame -- 3.1 The Meaning and Importance of Governance -- 3.2 The "Instrumental Focus" of Comparative Governance Analysis -- 4 Criteria of "Good" and "Sustainable" Urban Water Governance as Measures for Comparative Analysis -- 4.1 Effectiveness -- 4.2 Efficiency -- 4.3 Integrated Management and Effective Coordination: The Decisive Role of Planning Instruments.
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4.3.1 Substantive Regulation.
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