Advanced Low-Cost Separation Techniques in Interface Science: Volume 30
Published on 27. August 2019
Book
Paperback/Softback
360 pages
978-0-12-814178-6 (ISBN)
Description
Advanced Low-Cost Separation Techniques in Interface Science, Volume 30 helps scientists and researchers in academia and industry gain expert knowledge on how to use separation techniques at minimal cost and energy usage. It handles a broad range of highly relevant topics, including modern flotation techniques, low-cost materials in liquid-and gas-phase adsorption, new trends in molecular imprinting, graphenes in separation, nanobubbles and biopolymers in interface science, the reuse of biomaterials, green techniques for wastewaters, and modeling in environmental interfaces. The book shows that these techniques can be both attractive for both research and industrial purposes.
It is intended for chemical engineers working in wastewater treatment industries, membrane industries, pharmaceutical industries, textile or tanneries industries, hybrid-topic industries and energy industries.
It is intended for chemical engineers working in wastewater treatment industries, membrane industries, pharmaceutical industries, textile or tanneries industries, hybrid-topic industries and energy industries.
More details
Series
Language
English
Place of publication
San Diego
United States
Publishing group
Elsevier Science Publishing Co Inc
Target group
Professional and scholarly
Scientists and researchers in chemical engineering working in wastewater treatment industries, membrane industries, pharmaceutical industries, textile or tanneries industries, hybrid-topic industries, energy industries
Dimensions
Height: 229 mm
Width: 152 mm
Weight
650 gr
ISBN-13
978-0-12-814178-6 (9780128141786)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
George Z. Kyzas | Athanasios C. Mitropoulos
Advanced Low-Cost Separation Techniques in Interface Science
E-Book
08/2019
Academic Press
€160.00
Available for download
Persons
Dr. George Z. Kyzas is a Full Professor at the Department of Chemistry at the Democritus University of Thrace (DUTh). He was born in Drama (Greece) and studied Chemistry at the Department of Chemistry at the Aristotle University of Thessaloniki (AUTh). He obtained his BSc, MSc, and PhD degrees from the same Department expertised in Chemical Technology. He is now working at the Department of Chemistry (DUTh, Kavala, Greece), being the Head of the Department (since 2019). He is also Director/Chair of the MSc in Cosmetic Chemistry (since 2021). His research interests include the synthesis and characterization of various (majorly adsorbent) materials (inorganic, aluminates, polymers, graphene, activated carbons, agro-food residues, nanomaterials, CNTs, etc.) for environmental applications (wastewater treatment). His scientific work has been published in more than 280 Papers in international journals with high impact factor (IF,ave 6.5), while he published 8 Books, 39 Chapters in scientific Books and holds 3 Patents.
His name is included in the list of World Top 2% Scientists for consecutive years 2019-2022, which is compiled by the Stanford University (USA) based on standardized citation indicators.
His name is included in the list of World Top 2% Scientists for consecutive years 2019-2022, which is compiled by the Stanford University (USA) based on standardized citation indicators.
Content
1. Introduction to the reduction of separation techniques cost
2. Cost analysis in separation techniques
3. Modern flotation techniques in 2010s
4. Nanobubbles in interface science
5. Low-cost materials in liquid-phase adsorption
6. Low-cost materials in gas-phase adsorption
7. New trends in molecular imprinting techniques
8. Graphenes in separation technology
9. Biopolymers applications for interface technology
10. Reuse of biomaterials
11. Green techniques for wastewaters
12. Modelling in environmental interfaces
13. Advanced oil-spill decontamination techniques
2. Cost analysis in separation techniques
3. Modern flotation techniques in 2010s
4. Nanobubbles in interface science
5. Low-cost materials in liquid-phase adsorption
6. Low-cost materials in gas-phase adsorption
7. New trends in molecular imprinting techniques
8. Graphenes in separation technology
9. Biopolymers applications for interface technology
10. Reuse of biomaterials
11. Green techniques for wastewaters
12. Modelling in environmental interfaces
13. Advanced oil-spill decontamination techniques