Wastewater Treatment Residues as Resources for Biorefinery Products and Biofuels available in Paperback, eBook
Wastewater Treatment Residues as Resources for Biorefinery Products and Biofuels
- ISBN-10:
- 012816204X
- ISBN-13:
- 9780128162040
- Pub. Date:
- 11/20/2019
- Publisher:
- Elsevier Science
- ISBN-10:
- 012816204X
- ISBN-13:
- 9780128162040
- Pub. Date:
- 11/20/2019
- Publisher:
- Elsevier Science
Wastewater Treatment Residues as Resources for Biorefinery Products and Biofuels
Buy New
$220.00-
PICK UP IN STORE
Your local store may have stock of this item.
Available within 2 business hours
Overview
Product Details
ISBN-13: | 9780128162040 |
---|---|
Publisher: | Elsevier Science |
Publication date: | 11/20/2019 |
Pages: | 474 |
Product dimensions: | 7.50(w) x 9.25(h) x (d) |
About the Author
He is postdoctoral researcher in the University Rey Juan Carlos (URJC). He was holder of a Fulbright fellowship during two years in the University of Arizona (USA). He has also conducted Research in the University Autonoma of Madrid (Spain) for eight years and in the Advanced Water Management Centre of the University of Queensland (Australia) for one year. He is an active member of the International Water Association (IWA), the Water Environment Federation (WEF) and the Spanish Royal Society of Chemistry (RSEQ). He is Associate Editor of Frontiers In Microbiology, Frontiers In Environmental Science and Frontiers In Bioengineering and Biotechnology, and expert referee of the H2020 Program and of the Spanish National Agency of Evaluation and Prospective (ANEP). His research is focused on the application of novel biotechnologies for energy and resource recovery from wastewater and solid waste. He is scientific leader of two research lines in the URJC related to resource recovery from wastewater using purple phototrophic bacteria and energy recovery by anaerobic digestion processes. He has been a researcher in 18 projects, 4 of them as principal investigator, has published more than 38 scientific papers and participated in more than 32 conferences and congresses (H Index of 12).
Juan Antonio Melero studied chemistry in Complutense University of Madrid (1988-1993) and received his Ph D. in 1998 working on the synthesis and applications of zeolitic materials for redox and acid-catalyzed reactions. He undertook a postdoctoral research in the group of Prof. G. Stucky and B. F Chmelka at California University in Santa Barbara for one year working on the synthesis and applications of organically modified mesostructured materials. Currently, he is Full Professor in Chemical Engineering at Universidad Rey Juan Carlos. His research is focused on the synthesis and characterization of porous solids with enhanced properties and their catalytic application in Fine Chemistry, Environmental Catalysis and Biomass Valorization. He has written around 100 scientific articles and several book chapters on these subjects in international journals and participated in more than 40 research projects supported by public and private institutions. He is leader-researcher of several active projects related with wastewater treatment and the design of sustainable processes for the transformation of biomass into fuels and bio-products. He has an H index of 34 (April, 2016).
Head of the Systems Analysis Unit at IMDEA Energy Institute and Full Professor at Rey Juan Carlos University (Spain). His areas of interest are focused on process definition, simulation and optimization; life cycle sustainability assessment; energy modelling and roadmapping applied to different renewable energy systems and clean technologies. He is author of more than 75 scientific papers and 3 patents. He is Chairman of the Spanish Life Cycle Assessment Network (esLA) and Operating Agent of IEA-HIA Task 36 “Life Cycle Sustainability Assessment of Hydrogen Energy Systems.
Table of Contents
I. Wastewater Treatment as a Process and a Resource1. Waste as a resource2. Wastewater treatment processes and characterization of wastewaters, sludge and treated watersII. Current Approaches to Disposition and Utilization of Wastewater Treatment Residue3. Reduction of waste mass by incineration4. Additives for the cement and ceramics industries5. Anaerobic digestion for methane and hydrogen production6. TEA, LCA and EA of wastewater and sludge treatment systems
III. Technologies for Wastewater Sludge Utilization and Energy Production7. Hydrothermal liquefaction of sludge and biomass residues8. Carbonization of sludge9. Pyrolysis of sludge and biomass residues10. Fuel cells and other emerging technologies11. TEA, LCA and EA of sludge thermochemical treatment systems
IV. New Technologies for Wastewater Treatment and Value-Added Product DevelopmentA - Holistic water treatment and biomass generation12. Wastewater treatment and biomass generation with algae13. Purple phototrophic bacteria as a novel driver to circular economy in wastewater treatment14. Metals recovery from wastewater by microbial electrochemical technologies15. Production of Biodiesel from Floatable Waste Water Scum
B - Value-added products from wastewater sludge and biomass16. Technologies for fractionation of waste residues and resource recovery17. Production of single-cell proteins from organic matter and residual nitrogen18. Acidogenesis and chain elongation for bioproducts development19. Transformation of organic contamination from wastewater into bioplastics (poly-hydroxy-alkanoate) by microorganisms20. C - Life Cycle and Technoeconomic Analyses of new target industries for diversification of wastewater residues
What People are Saying About This
Reviews current, new and visionary technologies and processes to utilize wastewater sludge residues as resources for value added products and biofuels