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Full Description
Electrochemical Biomass Conversion: Sustainable Processes and Applications for Bioenergy, Biofuels, and Bioproducts offers a detailed exploration of the mechanisms, advancements, and practical applications of electrochemical biomass conversion. Bridging theory and practice, it provides an overview of experimental findings and computational studies. The book begins with an introduction to basic concepts and processes. It then covers reactors, deconstruction, and valorization methods. Various catalysts and characterization techniques are discussed, along with biomass-derived electrochemical platforms. The book also addresses modeling, fermentation, reforming, oxidation, and hydrogenation. Noble metals, alloys, carbon, and polymer catalysts are examined, along with the integration of microbial, photo, and thermal methods.
Fuel and biodiesel production through electrochemical processes is explored, as well as the conversion of biomass derivatives like glucose, furfural, and glycerol. The book concludes with bioelectroconversion, technoeconomic assessments, sustainability aspects, case studies, and future directions in biomass electrochemistry.
Contents
1. Introduction to biomass electrochemistry
2. Fundamentals and processes for electrochemical biomass conversion
3. Electrochemical reactors for biomass electrochemistry
4. Electrochemical conversion for biomass deconstruction
5. Electrochemical processes for biomass valorization
6. Electrochemical catalysts and materials for biomass conversion
7. Insitu/operando characterization techniques in biomass electrochemistry
8. Electrochemical techniques for lignocellulosic biomass transformation
9. Biomass-derived electrochemical platforms
10. Modeling and simulation in biomass electrochemistry
11. Electrochemical fermentation of biomass
12. Electrochemical reforming of biomass
13. Electrocatalytic oxidation of biomass
14. Electrocatalytic hydrogenation of biomass
15. Noble-metals based electrocatalysts for biomass conversion
16. Non noble-metals based electrocatalysts for biomass conversion
17. Alloys-based electrocatalysts for biomass conversion
18. Binary and ternary-based electrocatalysts for biomass conversion
19. Carbon materials for electrochemical biomass conversion
20. Polymer-based electrocatalysts for biomass conversion
21. Integrated microbial and electrochemical biomass conversion
22. Integrated photo and electrochemical biomass conversion
23. Integrated thermal and electrochemical biomass conversion
24. Biofuel production through electrochemical conversion
25. Biodiesel production through electrochemical biomass conversion
26. Hydrogen production by electrochemical biomass conversion
27. Electrochemical conversion of biomass waste
28. Electrochemical conversion of 5-hydroxymethyl furfural (HMF)
29. Electrochemical conversion of glucose
30. Electrochemical conversion of muconic acid
31. Electrochemical conversion of furfural
32. Electrochemical conversion of glycerol
33. Electrochemical conversion of levulinic acid
34. Electrochemical conversion of valeric acid
35. Electrochemical biomass-derived carboxylic acids
36. Electrochemical depolymerization of lignin
37. Bioelectroconversion into drop-in-fuels
38. Technoeconomic evaluation in electrochemical biomass conversion
39. Challenges and opportunities in electrochemical biomass conversion
40. Sustainable biomass conversion: economic and environmental aspects
41. Case studies and applications in electrochemical biomass conversion
42. Future directions and emerging trends in biomass electrochemistry
