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Elsevier

Thermochemical Conversion of Lignocellulosic Materials

Theory, Design, and Applications for the Future

  • 1st Edition - January 22, 2025
  • Latest edition
  • Editors: Manuel Garcia-Perez, Farid Chejne-Janna
  • Language: English

Thermochemical Conversion of Lignocellulosic Materials: Theory, Design, and Applications for the Future proposes a generalized methodology for the design and study of thermoche… Read more

Description

Thermochemical Conversion of Lignocellulosic Materials: Theory, Design, and Applications for the Future proposes a generalized methodology for the design and study of thermochemical conversion reactors independent of the feedstock used and the technology analyzed. Sections cover essential theory, including biomass thermochemical conversion, biomass supply chains, and thermochemical reactors. The book then examines other important aspects of the thermochemical conversion reaction, presenting modeling and analysis options. Finally, it investigates potential uses and applications for these techniques. Including clear objectives and practical exercises to cement understanding, this book will equip students and researchers with the skills to design and model selective reactors.

Key features

  • 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

Readership

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

Table of contents

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

Product details

  • Edition: 1
  • Latest edition
  • Published: January 24, 2025
  • Language: English

About the editors

MG

Manuel Garcia-Perez

Professor and Chair of Biological Systems Engineering at Washington State University, is a chemical engineer with nearly 30 years’ experience in thermochemical conversion of lignocellulosic materials, reactor design, biofuels and sustainable materials. He now focuses on selective carbonization of unconventional oils and supply chains for sustainable aviation fuels.

Affiliations and expertise
Department Chair and Professor, Department of Biological Systems Engineering, Washington State University, Pullman, WA, USA

FC

Farid Chejne-Janna

Farid Chejne-Janna is a Physicist and Mechanical Engineer and Doctor in Engineer, specific area related to Energy System, he is a titular Professor of Universidad Nacional de Colombia, Adjunct Professor of Washington State University in United State, Member of Number of the Academia Colombiana de Ciencias Exactas, Físicas y Naturales. He has several research works related to mathematical modelling at different scales of thermochemical processes (drying, pelletizing, pyrolysis slow and fast, torrefaction, gasification and combustion) and other physical phenomena, several studies related to energy efficiency and with thermal equipment design. His scientific contribution is highlighted by the publication of more than 100 scientific articles in high-impact journals, he has 5 patents, 8 prototypes and around 10 books. His scientific contribution has earned him multiple recognitions in various areas of science and industry, among which stands out the Medal of Merit and Prize for Academic Excellence from the Universidad Nacional of Colombia, Scientific Talent from the Universidad Pontificia Bolivariana and Medellín Research Award in Colombia.

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