03706nam 2200541 450 991082367320332120191118121925.01-000-79707-41-00-333789-91-003-33789-91-000-79391-587-93609-46-9(CKB)4100000005879333(MiAaPQ)EBC5493982(MiAaPQ)EBC30251874(Au-PeEL)EBL30251874(EXLCZ)99410000000587933320180910d2018 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierDew water /Daniel Beysens1st ed.Gistrup, Denmark :River Publishers,[2018]©20181 online resource (372 pages)River Publishers Series in Chemical, Environmental, and Energy Engineering87-93609-47-7 Includes bibliographical references and indexForewords -- Preface -- Participants of the reviewing process -- Glossary -- List of figures -- List of tables -- List of abbreviations -- History -- Water on Earth -- Atmosphere and materials radiative properties -- Humid air -- Dew nucleation and growth -- Dew collection by gravity -- Dew yield estimation -- Computational fluid dynamics -- Dew measurement and collection -- Dew water quality -- Economic aspects -- Appendix A: Slab and hemisphere emissivities -- Appendix B: The Clausius-Clapeyron equation -- Appendix C: Relation between vapor and heat transfer coefficients -- Appendix D: Volume of a spherical cap -- Appendix E: Wetting and super wetting properties -- Appendix F: Sand blasting roughness -- Appendix G: Meniscus in a groove -- Appendix H: The Penman-Monteith equation -- Appendix I: Relation between dew yield and dry air coolingThe world's ever-increasing need for fresh water has led to the use of non-conventional sources such as rain and fog water collection. Although rain water collection is relatively simple, the supply is often erratic. Passive fog water collection has been used in several parts of the world but is only relevant to certain geographical locations. Dew occurrence, however, is far more widespread, can form in most climates and geographic settings, show high frequency and prevalence throughout the year. During the past 20 years, dew collection has therefore been investigated as a serious supplemental source of fresh water. Dew Water offers a thorough review of dew, its formation characteristics and potential for dew collection, for audiences that include policy-makers, non-governmental organizations involved in development aid and sustainable development, engineers, urban planners, researchers and students. After providing a background on atmospheric water, humid air, and sky and materials emissivity, the book deals with dew formation and its estimation with a focus on the use of meteorological data. Dew measurement techniques are reviewed and discussed as well as dew collection by passive means. Computational fluid dynamics technique is described for better design of dew collectors. Dew quality (chemistry, biology) is assessed in view of potable water quality. Costs and economic aspects are also considered. -- from back coverDewFresh waterWaterDew.Fresh waterWater574Beysens D.739861MiAaPQMiAaPQMiAaPQBOOK9910823673203321Dew water4013212UNINA