search-white-svg
Meine Position
i
Ein Tipp vom Eldar Team
Je mehr Sie bestellen, desto grösser Ihr Rabatt
Lieferbar
Membrane Technologies for Water Treatment
Buch
Buch
Fachbuch
2016

Membrane Technologies for Water Treatment

Removal of Toxic Trace Elements with Emphasis on Arsenic, Fluoride and Uranium

ISBN
EAN
978-1-138-02720-6
9781138027206
Artikel-Nr.
N29NQ7E
Bestpreis-Garantie
Kostenloser Versand
Rabatt
-21.3
%
CHF 249.00
CHF
195.92
Anzahl
1
Maximale
Lieferzeit
23
Arbeitstage
Mittwoch
23.02.2022
speech-bubble-svg Beschreibung
Focuses on the application of membrane technologies in removing toxic metals\metalloids from water. Particular attention is devotedto the removal of arsenic, uranium, and fluoride. These compounds are all existing in the earth’s crust at levels between two and five thousands micrograms per kg (parts per million) on average and these compounds can be considered highly toxic to humans, who are exposed tothem primarily from air, food and water. In order to comply with the new maximum contaminant level, numerous studies have been undertaken to improve established treatments or to develop novel treatment technologies for removing toxic metals from contaminated surface and groundwater. Among the technologies available, applicable for water treatment, membrane technology has been identified as a promising technology to remove such toxic metals from water. The bookdescribes both pressure driven (traditional processes, such as Nanofiltration, Reverse Osmosis, Ultrafiltration,etc) and more advanced membrane processes (such as forward osmosis, membrane distillation, and membrane bio-reactors) employed in the application of interest. Key aspect of this book is to provide information on both the basics of membrane technologies and on the results depending on the type of technology employed.
Zielgruppe
Professional & Vocational
Inhaltsverzeichnis

Part I Generality on arsenic, fluoride and uranium

1. Fluoride, uranium and arsenic: occurrence, mobility, chemistry, human health impacts and concerns 1.1 Introduction
1.2 Fluoride
1.3 Uranium
1.4 Arsenic

Part II Traditional membrane processes

2. Arsenic removal by low pressure-driven membrane operations2.1 Introduction
2.2 Microfiltration and ultrafiltration
2.3 Arsenic removal by using microfiltration
2.4 Arsenic removal by using ultrafiltration
2.5 Conclusions

3. Fluoride and uranium removal by nanofiltration3.1 Introduction
3.2 Common removal technologies
3.3 Removal of dissolved fluoride and uranium by NF
3.4 Conclusions and outlook

4. The use of reverse osmosis (RO) for removal of arsenic, fluoride and uranium from drinking water4.1 Reverse osmosis: background and transport mechanism
4.2 Types of RO membranes
4.3 Membrane modules and their application
4.4 Reverse osmosis for arsenic, fluoride and uranium removal from water
4.5 Experimental study for removal of arsenic and fluoride from water by RO and loose RO membranes
4.6 Conclusion

5. Electro-membrane processes for the removal of trace toxic metal ions from water5.1 Introduction
5.2 Case studies
5.3 Concluding remarks and future needs

6. Fluoride, arsenic and uranium removal from water using adsorbent materials and integrated membrane systems6.1 Introduction
6.2 Fluoride
6.3 Arsenic
6.4 Uranium
6.5 Concluding remarks and outlook

Part III New trends in materials and process development

7. Biosorbent materials and membranes for the treatment of toxic ions from water
7.1 Introduction
7.2 Mechanism of metal biosorption and factors affecting its performance
7.3 Equilibrium models for bioadsorption process
7.4 Choice of metals for bioadsorption studies
7.5 Biosorbent materials as a precursor in membrane preparation
7.6 Hybrid of biosorption and membrane processes
7.7 Biofiltration
7.8 Bioadsorption of arsenic, uranium and fluoride
7.9 Conclusion

8. Liquid membrane separations of uranium
Prasanta Kumar Mohapatra8.1 Introduction
8.2 Liquid membranes
8.3 Liquid membrane separations using different extractants
8.4 Applications of liquid membranes for uranium recovery
8.5 Conclusion and perspectives

9. Supported liquid membrane technology in the removal and recovery of toxic ions from water9.1 Introduction
9.2 Theory
9.3 SLM application in the removal and recovery of toxic ions from water
9.4 Conclusion

10. Polymer inclusion membranes for the separation of uranium and arsenic from dilute aqueous solutions10.1 Introduction
10.2 Extraction and separation of solutes
10.3 Separation of uranium
10.4 Separation of arsenic
10.5 Conclusion and outlook

11. Removal of arsenic by nanofiltration: a case study on novel membrane materials11.1 Introduction
11.2 Nanofiltration (NF)
11.3 Removal of arsenic by nanofiltration
11.4 High performance NF membranes
11.5 Cost evaluation
11.6 Summary and outlook

12. Fate and removal of trace metals/metalloids and fluoride from urban wastewater by membrane bioreactors: pilot and full-scale experiences12.1 Introduction
12.2 Myths and realities about MBR
12.3 Occurrence, fate and removal of trace metals, metalloids and fluoride
12.4 Conclusion

13. Membrane distillation for the treatment of waters contaminated by arsenic, fluoride and uranium13.1 Introduction
13.2 Traditional treatments
13.3 Application of the membrane distillation technique
13.4 Synthesis of the literature results
13.5 Conclusions and remarks

14. Removal of inorganic and organic trace contaminants by forward osmosis membranes14.1 Introduction
14.2 Fundamentals of mass transport and solute rejection in FO
14.3 Removal of organic contaminants by FO membranes
14.4 Removal of inorganic contaminants by FO membranes
14.5 Conclusions and outlook

Leserkritik
"The book has chapters on all the major membrane technologies and their application to removing toxic trace elements, each chapter covering at least one of arsenic, fluoride and uranium. Taken together, the references for each chapter provide a very good resource for readers wanting to learn more about particular membrane technologies used in this field or a set of studies on toxic element removal." "Overall, the book will appeal particularly to membrane scientists looking to understand the scope for removal of toxic trace elements, especially arsenic, uranium and fluoride, and to scientists working on these elements looking to understand how membranes could be used to treat contaminated waters." Nadia Permogorov, Johnson Matthey Technology Centre, Reading UK. Printed in Johnson Matthey Technology Review, no. 60, 2016
Publikation
2016
speech-bubble-svg
Sprache
Englisch
book-svg Format
Hardcover
286 Seiten
24.6 cm
(Höhe)
17.4 cm
(Breite)
1111 g
(Gewicht)
package-svg Versand
Kostenloser Versand: Schweiz & Liechtenstein
Für den Versand nach Deutschland oder Frankreich werden die Versandgebühren der Schweizerischen Post berechnet. Diese werden Ihnen im Warenkorb für Ihre gesamte Bestellung berechnet.
credit-card-svg Zahlungsarten
payment-einzahlungsschein payment-twint payment-mastercard payment-visa payment-american-express
Bestellen Sie einfach auf Rechnung oder bezahlen Sie bequem und gebührenfrei mit Twint oder Kreditkarte.
subcategories-svg
Passende Themen
Unterkategorie
Technik (allgemein)
arrow-right-top-svg
Zurück
Zum Start
S
SPIEGEL Bestseller
Hauptkategorie