Bioethanol Fuel Production Processes. II
Biomass Hydrolysis, Fermentation, and Bioethanol Fuel Separation
Herausgeber: Konur, Ozcan
Bioethanol Fuel Production Processes. II
Biomass Hydrolysis, Fermentation, and Bioethanol Fuel Separation
Herausgeber: Konur, Ozcan
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This book provides the latest research on biomass hydrolysis, hydrolysate fermentation, and bioethanol fuel separation. The book also covers biomass biorefineries and their role to reduce production costs by producing additional products such as power, heat, animal feed, biodiesel, biogas, and biochemicals.
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This book provides the latest research on biomass hydrolysis, hydrolysate fermentation, and bioethanol fuel separation. The book also covers biomass biorefineries and their role to reduce production costs by producing additional products such as power, heat, animal feed, biodiesel, biogas, and biochemicals.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 440
- Erscheinungstermin: 22. Dezember 2023
- Englisch
- Abmessung: 254mm x 178mm x 25mm
- Gewicht: 1021g
- ISBN-13: 9781032127507
- ISBN-10: 1032127503
- Artikelnr.: 68715929
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 440
- Erscheinungstermin: 22. Dezember 2023
- Englisch
- Abmessung: 254mm x 178mm x 25mm
- Gewicht: 1021g
- ISBN-13: 9781032127507
- ISBN-10: 1032127503
- Artikelnr.: 68715929
Ozcan Konur has interdisciplinary research interests and has published primarily in the areas of bioenergy and biofuels, algal bioenergy and biofuels, nanoenergy and nanofuels, nanobiomedicine, algal biomedicine, disability studies, higher education, biodiesel fuels, algal biomass, lignocellulosic biomass, scientometrics, and bioethanol fuels. He has edited a book titled Bioenergy and Biofuels (CRC Press, 2018), a handbook titled Handbook of Algal Science, Technology, and Medicine (Elsevier, 2020), and a handbook titled Handbook of Biodiesel and Petrodiesel Fuels: Science, Technology, Health, and Environment (CRC Press, 2021) in three volumes.
Part 3. Introduction to Production Processes for Bioethanol Fuels.
1. Production Processes for Bioethanol Fuels: Scientometric Study.
2. Production Processes for Bioethanol Fuels: Review.
Part 4. Biomass Hydrolysis for Bioethanol Production.
3. Biomass hydrolysis: Scientometric Study.
4. Biomass hydrolysis: Review.
5. Wood Hydrolysis: Scientometric Study.
6. Wood Hydrolysis: Review.
7. Straw Hydrolysis: Scientometric Study.
8. Straw Hydrolysis: Review.
9. Cellulose Hydrolysis: Scientometric Study.
10. Cellulose Hydrolysis: Review.
Part 5. Hydrolysate Fermentation for Bioethanol Production.
11. Hydrolysate and Substrate Fermentation: Scientometric Study.
12. Hydrolysate and Substrate Fermentation: Review.
13. Alternative Fermentation Processes for the Bioethanol Production:
Scientometric Study.
14. Alternative Fermentation Processes for the Bioethanol Production:
Review.
15. Metabolic Engineering for the Bioethanol Production: Scientometric
Study.
16. Metabolic Engineering for the Bioethanol Production: Review.
17. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Scientometric Study.
18. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Review.
Part 6. Bioethanol Fuel Separation.
19. Distillation Separation of Bioethanol: The Current Advances.
20. In situ Bioethanol Separation from Fermentation Broth.
21. Advances and Challenges in the Production and Purification of
Bioethanol using Intensified Processes.
1. Production Processes for Bioethanol Fuels: Scientometric Study.
2. Production Processes for Bioethanol Fuels: Review.
Part 4. Biomass Hydrolysis for Bioethanol Production.
3. Biomass hydrolysis: Scientometric Study.
4. Biomass hydrolysis: Review.
5. Wood Hydrolysis: Scientometric Study.
6. Wood Hydrolysis: Review.
7. Straw Hydrolysis: Scientometric Study.
8. Straw Hydrolysis: Review.
9. Cellulose Hydrolysis: Scientometric Study.
10. Cellulose Hydrolysis: Review.
Part 5. Hydrolysate Fermentation for Bioethanol Production.
11. Hydrolysate and Substrate Fermentation: Scientometric Study.
12. Hydrolysate and Substrate Fermentation: Review.
13. Alternative Fermentation Processes for the Bioethanol Production:
Scientometric Study.
14. Alternative Fermentation Processes for the Bioethanol Production:
Review.
15. Metabolic Engineering for the Bioethanol Production: Scientometric
Study.
16. Metabolic Engineering for the Bioethanol Production: Review.
17. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Scientometric Study.
18. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Review.
Part 6. Bioethanol Fuel Separation.
19. Distillation Separation of Bioethanol: The Current Advances.
20. In situ Bioethanol Separation from Fermentation Broth.
21. Advances and Challenges in the Production and Purification of
Bioethanol using Intensified Processes.
Part 3. Introduction to Production Processes for Bioethanol Fuels.
1. Production Processes for Bioethanol Fuels: Scientometric Study.
2. Production Processes for Bioethanol Fuels: Review.
Part 4. Biomass Hydrolysis for Bioethanol Production.
3. Biomass hydrolysis: Scientometric Study.
4. Biomass hydrolysis: Review.
5. Wood Hydrolysis: Scientometric Study.
6. Wood Hydrolysis: Review.
7. Straw Hydrolysis: Scientometric Study.
8. Straw Hydrolysis: Review.
9. Cellulose Hydrolysis: Scientometric Study.
10. Cellulose Hydrolysis: Review.
Part 5. Hydrolysate Fermentation for Bioethanol Production.
11. Hydrolysate and Substrate Fermentation: Scientometric Study.
12. Hydrolysate and Substrate Fermentation: Review.
13. Alternative Fermentation Processes for the Bioethanol Production:
Scientometric Study.
14. Alternative Fermentation Processes for the Bioethanol Production:
Review.
15. Metabolic Engineering for the Bioethanol Production: Scientometric
Study.
16. Metabolic Engineering for the Bioethanol Production: Review.
17. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Scientometric Study.
18. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Review.
Part 6. Bioethanol Fuel Separation.
19. Distillation Separation of Bioethanol: The Current Advances.
20. In situ Bioethanol Separation from Fermentation Broth.
21. Advances and Challenges in the Production and Purification of
Bioethanol using Intensified Processes.
1. Production Processes for Bioethanol Fuels: Scientometric Study.
2. Production Processes for Bioethanol Fuels: Review.
Part 4. Biomass Hydrolysis for Bioethanol Production.
3. Biomass hydrolysis: Scientometric Study.
4. Biomass hydrolysis: Review.
5. Wood Hydrolysis: Scientometric Study.
6. Wood Hydrolysis: Review.
7. Straw Hydrolysis: Scientometric Study.
8. Straw Hydrolysis: Review.
9. Cellulose Hydrolysis: Scientometric Study.
10. Cellulose Hydrolysis: Review.
Part 5. Hydrolysate Fermentation for Bioethanol Production.
11. Hydrolysate and Substrate Fermentation: Scientometric Study.
12. Hydrolysate and Substrate Fermentation: Review.
13. Alternative Fermentation Processes for the Bioethanol Production:
Scientometric Study.
14. Alternative Fermentation Processes for the Bioethanol Production:
Review.
15. Metabolic Engineering for the Bioethanol Production: Scientometric
Study.
16. Metabolic Engineering for the Bioethanol Production: Review.
17. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Scientometric Study.
18. Utilization of the Saccharomyces Cerevisiae for the Bioethanol
Production: Review.
Part 6. Bioethanol Fuel Separation.
19. Distillation Separation of Bioethanol: The Current Advances.
20. In situ Bioethanol Separation from Fermentation Broth.
21. Advances and Challenges in the Production and Purification of
Bioethanol using Intensified Processes.