Urban water cycle processes and interactions/ (Record no. 151457)
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000 -LEADER | |
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fixed length control field | 00356nam a2200133Ia 4500 |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
International Standard Book Number | 9789231040603 |
040 ## - CATALOGING SOURCE | |
Transcribing agency | CUS |
082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
Classification number | 628.1091732 |
Item number | MAR/U |
100 ## - MAIN ENTRY--PERSONAL NAME | |
Personal name | Marsalek, Jiri |
245 #0 - TITLE STATEMENT | |
Title | Urban water cycle processes and interactions/ |
Statement of responsibility, etc. | Jiri Marsalek, Mohammad Karamouz and Blanca E. Jimenez Cisneros |
260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
Place of publication, distribution, etc. | Paris: |
Name of publisher, distributor, etc. | UNESCO Pub., |
Date of publication, distribution, etc. | 2008. |
300 ## - PHYSICAL DESCRIPTION | |
Extent | xviii, 131 p. : |
Other physical details | ill. ; |
Dimensions | 26 cm. |
440 ## - SERIES | |
Title | (Urban water series); |
Volume/sequential | v. 2. |
505 ## - FORMATTED CONTENTS NOTE | |
Formatted contents note | Foreword<br/>List of Figures<br/>List of Tables<br/>Acronyms<br/>Glossary<br/>Acknowledgements<br/>1 Urban water cycle<br/>1.1 Introduction<br/>1.2 Urban water cycle concept<br/>1.3 Total management of the urban water cycle <br/>2 Urban water cycle hydrologic components<br/>2.1 Water sources<br/>2.1.1 Municipal water supply<br/>2.1.2 Precipitation<br/>2.1.2.1 Climatic aspects<br/>2.1.2.2 Urban precipitation<br/>2.2 Hydrologic abstractions<br/>2.2.1 Interception<br/>2.2.2 Depression storage<br/>2.2.3 Evaporation and evapotranspiration<br/>2.2.4 Infiltration<br/>2.2.5 Lumped hydrologic abstractions<br/>2.3 Water storage<br/>2.3.1 Soil moisture<br/>2.3.2 Urban groundwater<br/>2.4 Interflow and groundwater flow<br/>2.5 Stormwater runoff<br/>2.6 Natural drainage: urban streams, rivers and lakes<br/>2.7 Needs for urban water infrastructure<br/>3 Urban water infrastructure<br/>3.1 Demands on water services in urban areas<br/>3.2 Water supply <br/>3.2.1 Overview of situation in developing countries<br/>3.2.1.1 Middle East and North Africa (MENA)<br/>3.2.1.2 Sub-Saharan Africa (SSA)<br/>3.2.1.3 East, South and South-East Asia (ESSA)<br/>3.2.2 Historical development<br/>3.2.3 Water demand<br/>3.2.3.1 Water supply standards: quantity<br/>3.2.3.2 Water supply standards: quality <br/>3.2.4 Water supply sources <br/>3.2.4.1 Conjunctive use of sources and artificial recharge<br/>3.2.4.2 Supplementary sources of water<br/>3.2.4.3 Water shortage <br/>3.2.5 Example of improving the water supply in the Tehran Metropolitan Area <br/>3.2.6 Drinking water treatment<br/>3.2.6.1 Emerging technologies<br/>3.2.6.2 Desalination <br/>3.2.6.3 Disinfection <br/>3.2.7 Water distribution systems<br/>3.2.8 Drinking water supplies in developing countries <br/>3.3 Urban drainage <br/>3.3.1 Flooding in urban areas <br/>3.3.1.1 Local (pluvial) flooding <br/>3.3.1.2 Urban (fluvial) floods <br/>3.3.2 Stormwater <br/>3.3.2.1 Stormwater characterization<br/>3.3.2.2 Stormwater management <br/>3.3.2.3 Special considerations for drainage in cold climates <br/>3.3.3 Combined sewer overflows <br/>3.3.3.1 CSO characterization <br/>3.3.3.2 CSO control and treatment <br/>3.4 Wastewater and sanitation <br/>3.4.1 Problem definition <br/>3.4.2 Technological development <br/>3.4.3 Ecological sanitation <br/>3.4.4 Basic demands on wastewater management systems <br/>3.4.5 Wastewater characterization <br/>3.4.6 Wastewater systems without separation of wastewaters at the source<br/>3.4.6.1 Centralized systems <br/>3.4.6.2 Distributed (local) systems <br/>3.4.7 Systems with separation of wastewaters at the source <br/>3.4.8 Wastewater treatment technologies for developing countries <br/>3.4.9 Case study of water pollution control in the Tehran Metropolitan Area <br/>3.4.10 Water and wastewater reuse <br/>3.4.10.1 NEWater in Singapore <br/>3.4.10.2 Shinjuku water recycling centre, Tokyo, Japan<br/>3.4.10.3 Wetlands with fish production in Calcutta, India <br/>3.4.10.4 Reuse of (untreated) sewage for agricultural irrigation in the Mezquital Valley (Mexico City sewage disposal)<br/>3.4.10.5 Reuse of stormwater and greywater in Sydney, Australia <br/>3.4.11 Closing observations on wastewater management in developing countries <br/>4 Impacts of urbanization on the environment<br/>4.1 Overview <br/>4.2 General characterization of urbanization effects <br/>4.2.1 Increased ground imperviousness<br/>4.2.2 Changes in runoff conveyance networks<br/>4.2.2.1 Construction of runoff conveyance networks <br/>4.2.2.2 Canaliza tion of urban streams and rivers <br/>4.2.2.3 Interfering transport infrastructures <br/>4.2.3 Increased water consumption <br/>4.2.4 Timescales of urbanization effects<br/>4.2.5 Types of receiving waters and spatial scales<br/>4.3 Urbanization effects on the atmosphere <br/>4.3.1 Thermal effects (urban heat island phenomenon) <br/>4.3.2 Urban air pollution <br/>4.3.3 Combined impacts <br/>4.4 Urbanization effects on surface waters<br/>4.4.1 Physical effects <br/>4.4.1.1 Urbanization effects on flows<br/>4.4.1.2 Urbanization effects on sediment regime: erosion and siltation <br/>4.4.1.3 Modification of the thermal regime of receiving waters <br/>4.4.1.4 Density stratification of receiving water bodies <br/>4.4.1.5 Combined physical effects<br/>4.4.2 Chemical effects<br/>4.4.2.1 Dissolved oxygen reduction<br/>4.4.2.2 Nutrient enrichment and eutrophication<br/>4.4.2.3 Toxicity<br/>4.4.3 Microbiological effects<br/>4.4.3.1 Waterborne pathogens<br/>4.4.3.2 Indicators of microbiological pollution<br/>4.4.4 Combined effects on surface waters<br/>4.4.5 Examples of urbanization effects on specific types of receiving waters<br/>4.4.5.1 Rivers<br/>4.4.5.2 Lakes and reservoirs<br/>4.5 Urbanization effects on wetlands<br/>4.6 Urbanization effects on soils<br/>4.6.1 Erosion<br/>4.6.2 Transport of pollutants in soils<br/>4.6.3 Changes in water quality during percolation through soils<br/>4.6.4 Effects of sludge disposal on soils<br/>4.6.4.1 Sludge production<br/>4.6.4.2 Sludge quality<br/>4.6.4.3 Biosolids (sludge) application on land<br/>4.6.4.4 Sludge disposal<br/>4.6.4.5 New chemicals of concern in sludge<br/>4.7 Urban impacts on groundwater <br/>4.7.1 Unintentional discharges into groundwater aquifers<br/>4.7.2 Intentional discharges into groundwater aquifers<br/>4.7.3 Impacts on aquifers<br/>4.8 Urban impacts on biota: loss of biodiversity<br/>4.8.1 General structure of water bodies and their biota<br/>4.8.2 Properties of the water bodies affecting flora and fauna<br/>4.8.3 Effects of alterations of urban water bodies on biota<br/>4.8.3.1 Rivers<br/>4.8.3.2 Lakes and reservoirs<br/>5 Summary<br/>References<br/>Index |
650 ## - SUBJECT | |
Keyword | Municipal water supply |
650 ## - SUBJECT | |
Keyword | Municipal water supply--Management |
650 ## - SUBJECT | |
Keyword | Water resources development--Environmental aspects |
650 ## - SUBJECT | |
Keyword | Waterworks |
650 ## - SUBJECT | |
Keyword | Hydrology |
700 ## - ADDED ENTRY--PERSONAL NAME | |
Personal name | Karamouz, Mohammad |
700 ## - ADDED ENTRY--PERSONAL NAME | |
Personal name | Jimenez Cisneros, Blanca E |
942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
Koha item type | General Books |
Withdrawn status | Lost status | Damaged status | Not for loan | Home library | Current library | Shelving location | Date acquired | Full call number | Accession number | Date last seen | Koha item type |
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Central Library, Sikkim University | Central Library, Sikkim University | General Book Section | 28/08/2016 | 628.1091732 MAR/U | P06131 | 28/08/2016 | General Books |