Sorption processes and pollution

Conventionnal and non-conventionnal sorbents for pollutant removal from wastewaters

Grégorio CRINI – Pierre-Marie BADOT (dir.)

2010 – ISBN : 978-2-84867-304-2 – 498 pages – format : 19.5*26 cm

Collection : Pratiques & techniques

Série : Environnement et Développement durable

42,00 €
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Résumé
This book shows a typical selection of the types of adsorbents studied and used in wastewater treatment, with emphasis on industrial effluents. The types of materials considered range from conventional sorbents such as carbons and silicas, to non-conventional solids such as sawdust and chitosan. Sorbents for specific applications (e.g. colour removal, metal extraction, fluoride removal) and new polymeric-based sorbents (calixarenes, molecularly imprinted polymers, cyclodextrins) are discussed in detail. For people who are new to the field, two special overview chapters, dealing with the principles and properties of adsorption processes, are provided at the beginning of the book. Also, the book provides a detailed review of sorption features.
Sommaire

Preface

 

List of contributors

 

Abstracts

 

Contents

 

Chapter 1. Sorption processes and pollution: An introduction

Grégorio Crini and Pierre-Marie Badot

 

Chapter 2. Wastewater treatment by sorption

Grégorio Crini

 

Chapter 3. Fixed-bed adsorption studies

Adriana S. Franca and Leandro S. Oliveira

 

Chapter 4. Adsorption of phenolic compounds on activated carbons

Mariusz Barczak and Andrzej Dabrowski

 

Chapter 5. Influence of thermal and chemical treatments on activated carbon characteristics, and effects on adsorption performance with respect to dyes, emerging contaminants and humic acids

Sarra Gaspard, Marie-Julie Pintor, Axelle Durimel and Valérie Jeanne-Rose

 

Chapter 6.Silicas adsorbents for pollutants removal

Sławomir Binkowski

 

Chapter 7. Non-conventional sorbents for dye removal

François Renault, Nadia Morin-Crini, Pierre-Marie Badot and Grégorio Crini

 

Chapter 8. Kaolin as an adsorbent for color removal

Aparajita Goswami and Mihir Kumar Purkait

 

Chapter 9. Wood sawdust, tree bark and wood chips: Waste lignocellulosic materials for dye removal

Viorica Dulman and Simona-Maria Cucu-Man

 

Chapter 10. Polysaccharides for metal ion recovery – A focus on chitosan

Jacques Desbrieres and Eric Guibal

 

Chapter 11. Non-conventional adsorbents for the removal of metal compounds from wastewaters

Fabio Montagnaro and Luciano Santoro

 

Chapter 12. Pollutant removal from surface-treatment industry wastewaters by starch-based sorbents: Chemical abatement and impact on water toxicity

Jérémie Charles, Bertrand Sancey, Giuseppe Trunfio, Pierre-Marie Badot, Michel de Carvalho, Albert Colin, Michaël Rietmann, Jean-François Minary, Emmanuel Grosjean and Grégorio Crini

 

Chapter 13. Defluoridation of water and wastewater using non-conventional sorbents

Giuseppe Trunfio, Bertrand Sancey, Xavier Hutinet and Grégorio Crini

 

Chapter 14. Fungal biomasses: non conventional biosorbents for organic and inorganic pollutants

Valeria Tigini, Valeria Prigione, Ilaria Donelli, Antonella Anastasi, Francesca Isella, Giuliano Freddi and Giovanna Cristina Varese

 

Chapter 15. Cross-linked cyclodextrins for pollutant removal

Bertrand Sancey, Grégorio Crini, Giuseppe Trunfio, Nadia Morin-Crini and Giangiacomo Torri

 

Chapter 16. Calixarene based materials for cations and anions

Mustafa Yilmaz, Abdulkadir Sirit and Hasalettin Deligoz

 

Chapter 17. Recent advances in porosinit-based nanocomposite adsorbents for pollutants removal from waters

Bingcai Pan, Xiaolin Zhang, Weiming Zhang, Lu Lv and Quanxing Zhang

 

Chapter 18. Molecularly imprinted polymers (mips) as selective sorbents for wastewater pollutants

George Z. Kyzas and Nikolaos K. Lazaridis

 

Chapter 19. Nanoparticles for pollutants removal

Yousef Haik and Shahnaz Qadri

 

Biography and address of contributors

 

Key-words

 

Nomenclature

 

Greek Letters

 

Notation

Auteur(s)
Grégorio CRINI (dir.)
Grégorio Crini, environmental polymerist, received his PhD in organic and macromolecular chemistry from the university of Lille in 1995. He joined the university of Franche-Comté at Besançon in 1997 where he was made research director in 2000. His current interests focus on the design of novel polymer networks and the environmental aspects of polysaccharide chemistry.
Pierre-Marie BADOT (dir.)
Pierre-Marie Badot, environmental biologist, received his PhD in plant sciences from the university of Franche-Comté in 1987. He became research director in 1991 and full professor in 1993. His main scientific work deals with responses of living organisms to abiotic stress: pollutant transfer and effects of pollution on ecosystems.
Public
The intended audience for this book includes students, environmentalists, engineers, water scientists, civil and industrial personnel who wish to specialize in adsorption technology.
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