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100   $a20180420d2010      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 04$aThe global arsenic problem $echallenges for safe water production /$feditors, Nalan Kabay. [et al.]
210  1$aLeiden :$cCRC Press/Balkema,$d2010.
215   $a1 online resource (248 p.)
225 1 $aArsenic in the environment,$x1876-6218 ;$vvolume 2
300   $aA Balkema book.
311   $a1-322-66688-1 
311   $a0-415-57521-4 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; About the book series; Editorial board; Dedications; Table of contents; Foreword; Editors' preface; List of contributors; Acknowledgements; Section I. Overview of global arsenic crisis and human toxicity; Chapter 1. The global arsenic crisis-a short introduction; Chapter 2. Arsenic contamination in groundwaters in Bangladesh and options of sustainable drinking water supplies; Chapter 3. Toxic effects of arsenic on human erythrocytes; Section II. Arsenic removal: Mechanisms, current practices and experiences; Chapter 4. Mechanisms of arsenic removal from water
327   $aChapter 5. Granular iron hydroxide as an adsorbent for arsenic in waterChapter 6. Arsenic removal from water using magnetites; Chapter 7. Study of the long term stability of ferric iron-arsenic precipitates; Chapter 8. Arsenic and boron in geothermal water and their removal; Chapter 9. Arsenic removal from potable water: Point-of-use, point-of-entry and municipal experiences; Section III. Membrane processes and applications in arsenic removal; Chapter 10. Review of membrane processes for arsenic removal from drinking water; Chapter 11. Arsenic removal by small-scale reverse osmosis units
327   $aChapter 12. Potential application to remove arsenic by functional polymers in conjunction with membranes and electrooxidation processesSection IV. Innovations in arsenic removal techniques for safe water production; Chapter 13. Testing of a new selective arsenic adsorbent and overview of field test data; Chapter 14. Chitosan dispersed with Fe(III) oxide particles: A sorbent used for selective removal of arsenic from contaminated waters; Chapter 15. Field experiences with ArsenXnp, a very effective and efficient hybrid media for arsenic removal
327   $aChapter 16. Low-cost solar technologies for arsenic removal in drinking waterBack Cover
330   $aA prevalent and increasingly important issue, arsenic removal continues to be one of the most important areas of water treatment. Conventional treatment plants may employ several methods for removing arsenic from water. Commonly used processes include oxidation, sedimentation, coagulation and filtration, lime treatment, adsorption onto sorptive media, ion exchange, and membrane filtration. However, in the most affected regions, large conventional treatment plants may not be appropriate and factors such as cost and acceptability as well as performance must be considered. This book, published in
410  0$aArsenic in the environment ;$vv. 2.
606   $aWater$xPurification$xAresnic removal
606   $aDrinking water$xArsenic content
615  0$aWater$xPurification$xAresnic removal.
615  0$aDrinking water$xArsenic content.
676   $a628.1/62
701   $aKabay$b Nalan$01464353
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910788566803321
996   $aThe global arsenic problem$93673960
997   $aUNINA