Thermochemical Conversion of Lignocellulosic Materials: Theory, Design, and Applications for the Future
Editat de Manuel Garcia-Perez, Farid Chejne-Jannaen Limba Engleză Paperback – 23 ian 2025
- Presents comprehensive coverage of the theory, analysis and use of thermochemical conversion for lignocellulosic biofuels
- Includes in-depth, realistic exercises to ensure readers build practical skills towards the design of their own thermochemical reactor
- Provides the fundamental knowledge necessary to develop fine control of thermochemical reactions
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Specificații
ISBN-13: 9780323955515
ISBN-10: 0323955517
Pagini: 650
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0323955517
Pagini: 650
Dimensiuni: 152 x 229 mm
Editura: ELSEVIER SCIENCE
Public țintă
Graduate students and researchers interested in designing, operating, and maintaining biomass thermochemical conversion systems (torrefaction, pyrolysis, carbonization, gasification, combustion, hydrothermal liquefaction, supercritical gasification).Practitioners/industry professionals in the above.
Cuprins
1. Introduction to biomass thermochemical conversion
2. Biomass resources and supply chains
3. Introduction to thermochemical reactors and to generalized analysis strategies
4. Biomass chemistry
5. Biomass multiscale structure and fundamentals of size reduction
6. Experimental techniques to study thermochemical reactions
7. Lumped mechanisms and conversion of experimental data into pseudo-kinetic constants
8. Molecular modeling: reaction mechanisms and kinetics
9. Effect of particle on reaction outcomes
10. Estimation of thermodynamic properties of products of biomass thermochemical reactions
11. Mass and energy balances in thermochemical reactors
12. Hydrodynamics and heat transfer in biomass thermochemical reactors
13. Design methods of thermochemical reactors
14. Thermochemical reactor modeling
15. Analysis and composition of liquid products
16. Analysis of carbonaceous and gaseous products
17. Uses of thermochemical products and bio-refineries: techno-economic and lifecycle assessment
2. Biomass resources and supply chains
3. Introduction to thermochemical reactors and to generalized analysis strategies
4. Biomass chemistry
5. Biomass multiscale structure and fundamentals of size reduction
6. Experimental techniques to study thermochemical reactions
7. Lumped mechanisms and conversion of experimental data into pseudo-kinetic constants
8. Molecular modeling: reaction mechanisms and kinetics
9. Effect of particle on reaction outcomes
10. Estimation of thermodynamic properties of products of biomass thermochemical reactions
11. Mass and energy balances in thermochemical reactors
12. Hydrodynamics and heat transfer in biomass thermochemical reactors
13. Design methods of thermochemical reactors
14. Thermochemical reactor modeling
15. Analysis and composition of liquid products
16. Analysis of carbonaceous and gaseous products
17. Uses of thermochemical products and bio-refineries: techno-economic and lifecycle assessment