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E-raamat: Water Demand Management

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  • Ilmumisaeg: 01-Dec-2005
  • Kirjastus: IWA Publishing
  • Keel: eng
  • ISBN-13: 9781780402550
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Water Demand ManagementSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 01-Dec-2005
  • Kirjastus: IWA Publishing
  • Keel: eng
  • ISBN-13: 9781780402550
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A common characteristic of water demand in urban areas worldwide is its inexorable rise over many years; continued growth is projected over coming decades. The chief influencing factors are population growth and migration, together with changes in lifestyle, demographic structure and the possible effects of climate change (the detailed implications of climate change are not yet clear, and anyway will depend on global location, but must at least increase the uncertainty in security of supply). This is compounded by rapid development, creeping urbanization and, in some places, rising standards of living. Meeting this increasing demand from existing resources is self-evidently an uphill struggle, particularly in water stressed/scarce regions in the developed and developing world alike. There are typically two potential responses: either "supply-side" (meeting demand with new resources) or "demand-side" (managing consumptive demand itself to postpone or avoid the need to develop new resources). There is considerable pressure from the general public, regulatory agencies, and some governments to minimise the impacts of new supply projects (e.g. building new reservoirs or inter-regional transfer schemes), implying the emphasis should be shifted towards managing water demand by best utilising the water that is already available. Water Demand Management has been prepared by the academic, government and industry network WATERSAVE. The concept of the book is to assemble a comprehensive picture of demand management topics ranging from technical to social and legal aspects, through expert critical literature reviews. The depth and breadth of coverage is a unique contribution to the field and the book will be an invaluable information source for practitioners and researchers, including water utility engineers/planners, environmental regulators, equipment and service providers, and postgraduates. Contents Water consumption trends and demand forecasting techniques The technology, design and utility of rainwater catchment systems Understanding greywater treatment Water conservation products Water conservation and sewerage systems An introduction to life cycle and rebound effects in water systems Developing a strategy for managing losses in water distribution networks Demand management in developing countries Drivers and barriers for water conservation and reuse in the UK The economics of water demand management Legislation and regulation mandating and influencing the efficient use of water in England and Wales Consumer reactions to water conservation policy instruments Decision support tools for water demand management
Preface xiii
Contributors xv
Water consumption trends and demand forecasting techniques
1(26)
Fayyaz Ali Memon
David Butler
Introduction
1(1)
The Big Picture
2(2)
Per Capita Water Consumption
4(2)
Factors Influencing Consumption
6(2)
Consumption By Micro-Component
8(2)
Water Consumption Trends And Saving Potential
10(3)
Demand Forecasting Techniques
13(11)
Unmeasured household demand
15(1)
Measured household demand
16(1)
Scenario-based forecasting
17(3)
Statistical methods
20(3)
Forecasting techniques for network operations
23(1)
Conclusions
24(1)
Acknowledgements
25(1)
References
25(2)
The technology, design and utility of rainwater catchment systems
27(35)
Alan Fewkes
Introduction
27(1)
Background and Application of Rainwater Catchment Systems
28(6)
History
28(1)
Application in Developing Countries
29(1)
Application in Developed Countries
29(5)
Rainwater Catchment System Categories and Components
34(6)
System categories
34(4)
System components
38(2)
Storage Capacity of Rainwater Collectors
40(9)
Background
40(1)
Moran related methods
40(1)
Critical period methods
41(7)
Economic considerations
48(1)
Other design methods
49(1)
Rainwater Quality
49(5)
Introduction
49(1)
Chemical and Physical Contaminants
50(1)
Microbiological contamination
51(3)
Discussion
54(3)
References
57(5)
Understanding greywater treatment
62(20)
William S. Warner
Introduction
62(5)
Storms of controversy
62(1)
Treatment principles
63(2)
Treatment technology
65(2)
Confusion and Controversy
67(2)
Language and logic problems
68(1)
Greywater Characterisation
69(7)
Compounding compounds
70(1)
Source sampling
71(2)
Organising organisms
73(1)
Actual versus potential micro-organisms
74(2)
Standard Errors
76(1)
Risk Assessment
77(2)
Conclusions
79(1)
References
79(3)
Water conservation products
82(25)
Nick Grant
Introduction
82(1)
A framework for considering water conservation products
83(4)
Definitions
83(3)
The potential for technical solutions for demand managemen
86(1)
Available technologies; analysis by category
87(14)
Domestic appliances
88(3)
Garden appliances/water efficient gardening
91(1)
Grey-water and blackwater reuse
92(1)
Rainwater (other than garden butts)
93(1)
Taps
93(1)
Supply restrictor valves
94(1)
Urinals
95(1)
Waterless and vacuum toilets
95(1)
Water efficient WCs and displacement techniques/retrofits
96(3)
Showers and baths
99(1)
Plumbing systems
100(1)
Efficiency versus reuse and harvesting
101(4)
Environmental impact
104(1)
Potential to offset water supply infrastructure
105(1)
Effluent reduction (and stormwater attenuation)
105(1)
Conclusions
105(1)
References
106(1)
Water conservation and sewerage systems
107(23)
John Blanksby
Introduction
107(4)
Aims
107(1)
Scope
108(1)
Development of combined and separate drainage systems
109(2)
Design of sewerage systems
111(1)
Flows and loads in sewers
111(10)
Flow and load in foul sewers and combined sewers and drains in dry weather
111(6)
Flow in combined sewers in wet weather
117(1)
Load in combined sewers in wet weather
118(2)
Flows and load in surface water sewers in wet and dry weather
120(1)
SUDS
120(1)
Pressures on urban drainage systems
121(1)
Potential impact of water conservation methods on peripheral and core drainage systems and on treatment plant
122(6)
Conclusions
128(1)
References
128(2)
An introduction to life cycle and rebound effects in water systems
130(11)
Andrew M. Dixon
Marcelle McManus
Introduction
130(1)
Life cycle thinking
131(3)
Life cycle assessment
132(1)
Recognised limitations of LCA
133(1)
Life cycle assessment and water systems
134(2)
LCA and demand management
134(1)
LCA and wastewater systems
135(1)
Rebound effects
136(1)
Rebound effects on time savings
137(1)
Concluding remarks
137(1)
References
138(3)
Further information on life cycle assessment
140(1)
Developing a strategy for managing losses in water distribution networks
141(39)
Stuart Trow
Malcolm Farley
Introduction
141(2)
Understanding water losses
141(1)
The IWA Water Loss Task Force
142(1)
Understanding the network
143(4)
Prioritising the tasks
143(2)
The water balance
145(1)
Network review
146(1)
Dealing with real losses (leakage)
147(13)
Developing a leakage strategy
147(13)
Leakage management
160(14)
Active leakage control (ALC)
160(6)
Pressure management
166(2)
Infrastructure management
168(3)
Monitoring performance and maintaining progress
171(3)
Technology and equipment
174(3)
Data capture and analysis
174(1)
Finding the leaks
175(2)
Conclusions
177(2)
References
179(1)
Demand management in developing countries
180(35)
Kalanithy Vairavamoorthy
M.A. Mohamed Mansoor
Introduction
180(4)
Water crisis in developing countries
180(2)
Water scarcity in urban areas
182(1)
Supply driven approach
183(1)
Growing interest in demand management
184(1)
Demand management (DM)
184(4)
Definitions
184(2)
Instruments for demand management
186(1)
Demand management and consumer types
186(1)
Demand management programme - objective and goals
187(1)
Intermittent supply
188(4)
Necessity rather than design
188(1)
Problems with intermittent supply
189(1)
Improvements to intermittent supply
190(1)
Guidelines for improved equity in supply
191(1)
Guidelines for improved water quality
191(1)
Water losses
192(6)
Water loss definitions
192(1)
Real losses
193(2)
Leakage in intermittent systems
195(1)
Apparent losses
196(2)
Water charging, tariffs and metering
198(5)
Water charging and subsidies
198(1)
`CAFES' Principal
199(1)
Block tariffs
199(2)
Metering
201(2)
Retro-fitting
203(2)
Potential for retro-fitting in developing countries
203(1)
Low-income communities
204(1)
Wastewater reuse
205(1)
Institutional capacity
206(1)
Institutional Capacity and Demand Management
206(1)
Institutional development programme
206(1)
Public awareness
207(2)
Importance of public awareness
207(1)
Components of public awareness campaign
208(1)
Factors to consider for public awareness campaign
208(1)
Demand management programmes in developing countries
209(2)
Managing water for African cities
209(1)
Managing water for Asian cities
210(1)
Conclusion
211(1)
References
211(4)
Drivers and barriers for water conservation and reuse in the UK
215(21)
Susan Roaf
Introduction
215(2)
The three key drivers
217(3)
Climate change
217(1)
Demographics
218(1)
Increasing rates of per capita consumption
219(1)
Water conservation and reuse measures
220(1)
Water conservation measures
220(1)
Greywater reuse systems
220(1)
Barriers and drivers for the government and regulators
221(4)
Regulators and the Government: Drivers
221(2)
Regulators and the Government: Barriers
223(2)
Local authorities
225(1)
Local authorities: Drivers
225(1)
Local authorities: Barriers
225(1)
Water companies
226(2)
Water companies: Drivers
226(1)
Water companies: Barriers
227(1)
Private consultants
228(1)
Private consultants: Drivers
228(1)
Private consultants: Barriers
228(1)
Architects, developers and planners
228(2)
Architects, developers and planners: Drivers
228(1)
Architects, developers and planners: Barriers
229(1)
Education and research
230(1)
Education and research Drivers
230(1)
Education and research: Barriers
230(1)
Manufacturers
231(1)
Manufacturers: drivers
231(1)
Manufacturers: barriers
231(1)
Customers and consumers
232(2)
Customers and consumers: Drivers
232(1)
Consumers: barriers
233(1)
Conclusions
234(1)
References
235(1)
The economics of water demand management
236(44)
Paul R. Herrington
Introduction: setting the stage
236(3)
Definitions and categories
236(2)
Scope for demand-management
238(1)
Economic appraisal
239(17)
Different types of appraisal
239(2)
Economic appraisal from micro to macro
241(2)
Economic appraisal: micro
243(10)
Economic appraisal: macro
253(3)
Applications in practice
256(17)
Introduction
256(1)
Application of major micro-appraisal techniques
256(3)
Micro-appraisal in practice
259(14)
Conclusions and recommendations
273(2)
References
275(5)
Legislation and regulation mandating and influencing the efficient use of water in England and Wales
280(25)
David Howarth
Introduction
280(2)
Water use by abstraction
282(5)
Legislation/Regulation applying to all abstractions
282(1)
Industrial and agricultural abstraction
283(1)
The public water supply
284(3)
The constituents of the public water supply
287(7)
Leakage
288(1)
Public water supply to buildings (households and non-households)
289(5)
Recent legislation
294(4)
European Water Framework Directive
294(2)
The Water Act 2003
296(2)
Summary and perspectives
298(1)
Discussion
299(4)
Abstraction licensing
299(1)
Water resources plans and the periodic review process
300(1)
Water supply (water fittings) regulations
300(1)
Leakage targets
301(1)
Water efficiency/water conservation duty
301(1)
Water charging policy
301(1)
Development planning
302(1)
Enhanced capital allowance
302(1)
Recent legislation
303(1)
Conclusions
303(1)
References
304(1)
Consumer reactions to water conservation policy instruments
305(26)
Paul Jeffrey
Mary Gearey
Introduction
305(5)
Supply, demand, and social expectations
306(1)
Water use and policy instruments.
307(3)
Attitudes and responses to conservation initiatives
310(7)
Economic instruments
310(2)
Regulatory instruments
312(1)
Technological instruments
313(2)
Education instruments
315(2)
Attitudes and responses to water recycling initiatives
317(3)
Beyond demand management?
320(5)
Gauging socio-cultural adaptability
320(1)
Complexity and co-evolution
321(2)
Water as a cultural signifier
323(2)
Conclusion: some comments on capacity development
325(1)
References
326(5)
Decision support tools for water demand management
331(22)
Christos K. Makropoulos
Introduction
331(1)
Decision support systems
332(2)
Tools for forecasting demand
334(4)
Tools for supporting the implementation of demand reducing strategies
338(3)
Tools for managing water demand at a systems level
341(3)
Tools for negotiations
344(2)
Conclusions and future trends
346(2)
References
348(5)
Index 353


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