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close this bookSourcebook of Alternative Technologies for Freshwater Augmentation in some Asian Countries (UNEP-IETC, 1998)
View the document(introduction...)
View the documentForeword
close this folderPart A - Introduction
View the document1. The freshwater imperative
View the document2. Objectives
View the document3. Organisation of the source book
View the document4. Survey methodology
View the document5. Results of the survey
View the document6. Recommendations of the workshop
View the document7. Information sources
close this folderPart B - Technology profiles
close this folder1. Water conservation technologies
View the document(introduction...)
View the document1.1 Dual water distribution system
View the document1.2 Evaporation reduction
View the document1.3 Coconut pick-ups
close this folder2. Wastewater treatment and reuse technologies
View the document2.1 Sewage reclamation using conventional wastewater treatment
View the document2.2 Sewage reclamation using reverse osmosis
View the document2.3 Wastewater treatment using wetlands
View the document2.4 Wastewater treatment using duckweed
View the document2.5 Wastewater treatment using lagoons
View the document2.6 Other technologies of wastewater treatment and reuse
close this folder3. Freshwater augmentation
View the document3.1 General rainwater harvesting technologies
View the document3.2 Rainwater harvesting for drinking water supply
View the document3.3 Rooftop rainwater harvesting for domestic water supply
View the document3.4 Rainwater harvesting for agricultural water supply
View the document3.5 Rainwater harvesting for irrigation water supply
View the document3.6 Rainwater harvesting for community water supply
View the document3.7 Rainwater harvesting for multiple purpose use technical description
View the document3.8 Open sky rainwater harvesting technical description
View the document3.9 Rainwater harvesting in ponds
View the document3.10 Artificial recharge of groundwater technical description
View the document3.11 Fog, dew and snow harvesting
View the document3.12 Bamboo pipe water supply system
View the document3.13 Hydraulic ram technical description
View the document3.14 Development and protection of natural springs
View the document3.15 Restoration of traditional stone spouts
close this folder4. Upgrading water quality
View the document4.1 Desalination
View the document4.2 Pond sand filtration
View the document4.3 Biological pretreatment of raw water
close this folderPart C - Case studies
View the document5.1 Water conservation and recycling - Gujarat State fertilizer corporation, India
View the document5.2 Traditional methods of soil and water conservation - coconut pick-ups, India
View the document5.3 Use of reclaimed water - Hindustan petroleum corporation limited, India
View the document5.4 Reclaimed city sewage as industrial water - Madras fertilizers limited, Madras, India
View the document5.5 Rainwater harvesting - the Thai rainwater jar
View the document5.6 Daungha rainwater collection water supply project, Nepal
View the document5.7 Conjunctive use of surface and groundwater - Krishna Delta, India
View the document5.8 Artificial groundwater recharge - India
View the document5.9 Integrated water conservation - Bhilai steel plant, India
View the document5.10 Drip irrigation - India
close this folderPart D - Annexes
View the documentAnnex 1 - Additional references
View the documentAnnex 2 - Table of conversion factors for metric and U.S. customary units
close this folderPart E - Institutional profiles
View the documentThe UNEP water branch
View the documentDanish hydraulic institute (DHI)

Foreword

The countries of Asia have seen growing pressure on water resources, with increasing demand and costs, for agricultural, domestic and industrial consumption. This has brought about the need to maximize and augment the use of existing or unexploited sources of freshwater. There are many modem and traditional alternative technologies for improving the utility and augmenting the supply of water being employed in various countries, but with limited application elsewhere due to the lack of information transfer among water resources managers and planners.

The "Source Book of Alternative Technologies for Freshwater Augmentation in Some Countries in Asia" was prepared by the Danish Hydraulic Institute as part of the joint United Nations Environment Programme (UNEP) Water Branch and International Environmental Technology Centre (IETC) initiative to provide water resource managers and planners, especially in developing countries and in countries with economies in transition, with information on the range of technologies that have been developed and used in the various countries throughout the world. UNEP wishes to thank the Danish Hydraulic Institute and those individuals involved in the preparation of the Source Book. The final revision of the Source Book was assisted by V. Santiago, C. Strohmann, and E. Khaka from UNEP IETC and Water Branch, respectively.

This information was gathered through surveys carried out on a regional basis - in Africa, Western Asia, East and Central Europe, Latin America and the Caribbean, and Small Island Developing States. The results, including this Source Book, will be compiled into a Global Source Book on Alternative Technologies for Freshwater Augmentation to be used throughout the countries of the world.

It is hoped that the technologies summarized here will be useful in the sustainable development of the countries of Asia and other regions.

John Whitelaw
Director
International Environmental Technology Centre
United Nations Environment Programme

Terttu Melvasalo
Director
Water Branch
United Nations Environment Programme

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