Klienditugi: 7440010 (E-R 10-18)

E-raamat: Advances in Drinking Water Purification: Small Systems and Emerging Issues

Edited by Sibdas Bandyopadhyay (CSIR Emeritus Scientist, Visva-Bharati, Santiniketan and Chief Scientist, CSIR-Central Glass and Ceramic Research Institute, Kolkata, India)

Formaat: EPUB+DRM
Ilmumisaeg: 17-Jan-2024
Kirjastus: Elsevier - Health Sciences Division
Keel: eng
ISBN-13: 9780323972024

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Formaat: EPUB+DRM
Ilmumisaeg: 17-Jan-2024
Kirjastus: Elsevier - Health Sciences Division
Keel: eng
ISBN-13: 9780323972024

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Advances in Drinking Water Purification: Small Systems and Emerging Issues captures the knowledge and impact on the performance of various types of water purification technologies and identities the need for further development with a view to carry forward the SDG global targets of achieving safe and affordable drinking water. The book bridges the knowledge gap between various types of treatability options which is essential for selection of suitable treatment systems and augmentation in the desirable levels of specific contaminants. It focuses on providing the scope of selecting location specific technology options by presenting multiple approaches for treatment of most crucial toxic contaminants/pathogens.

In addition, it provides insights into the effect of nature of impurities and selection of treatment options on the global quality of drinking water, comprising its possible impacts on the efficiency of the techniques used and thus on the safety of drinking water. This information is indispensable in identifying the appropriate technology depending on the socioeconomic conditions to address the problem of decontamination in drinking water.

Discusses point-of-use devices for the removal of organic and inorganic contaminants from drinking water
Provides a multipronged approach to encourage, recognize, protect and commercialize available options for water purification
Includes case studies for field testing/pilot trials
Provides an in-depth analysis on the efficacy of small systems with an emphasis on the sustainability, socio-technical aspects and emerging issues

Section I: Introduction1. Drinking water contamination - An update on the technological status

Section II: Arsenic Remediation2. Arsenic Removal Technology using iron and manganese based natural adsorbents: An overview3. Arsenic removal from drinking water using treated laterite based adsorbent4. Development of community scale Arsenic Filter5. Adsorbent assisted hybrid microfiltration technology using ceramic membrane for simultaneous arsenic and Iron removal for point-of- use application6. Latest development in arsenic removal by membrane technology7. Emerging technologies for arsenic removal suitable for small-scale and household purposes

Section III: Treatment of priority chemical contaminants8. Fluoride removal from drinking water: Optimisation, field testing and performance comparison9. Fluoride removal from drinking water by electrocoagulation process: Modelling and simulation through CFD approach.10. Domestic and community models for treatment of arsenic and fluoride contaminated groundwater: A comparative assessment of performance activated alumina based systems under field condition11. Ion Exchange Polymers: Versatile sorbents for water remediation

Section IV: Disinfection techniques12. Advancing household water treatment technologies for bacteria and virus removal from drinking water13. Household and community models using elemental iron materials for removal of pathogens and chemical contaminants14. Advances in electrodisinfection technique for drinking water treatment15. Recent advances on the technologies for the disinfection of drinking water

Section V: Emerging Issues16. Nanostructured materials for removal of geogenic contaminants from water17. Separation of microbial and organic pollutants from water using low pressure tailor made membranes18. Hybrid Ion Exchange Processes: From Decontamination to Desalination

Section VI: Socio-technical and Sustainability Aspects19. Socio-technical safe drinking water regime in Bangladesh: A post arsenic crisis analysis20. Universal Design and Implementation Considerations

Dr. Sibdas Bandyopadhyay served as Chief Scientist, CSIR-Central Glass & Ceramic Research Institute, Kolkata, India and CSIR Emeritus Scientist, Visva-Bharati, Santiniketan, India. He is Ex-Member of the Board of Research Studies and Ex-Adjunct Professor, Department of Environmental Science & Engineering, Indian Institute of Technology (Indian School of Mines), Dhanbad, India. Currently he is associated with the Water for People India Trust as Senior Consultant. He developed, demonstrated and installed community model systems for safe drinking water supply in arsenic and iron affected areas of Eastern and North-Eastern States of India.

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