A-Z of Biorefinery

<p>Section 1 Overview of A-Z of Biorefinery: A comprehensive view<br>1. Overview of biorefinery</p> <p>Section 2 Biomass and Biobased Products <br>2. Whole crop feedstocks in biorefinery: A common classification </p> <p>3. Lignocellulosic biomass and its potential derivative products</p> <p>4. Algal based feedstocks</p> <p>5. Waste and residues streams as feedstocks </p> <p>6. Bioresources and biofuels - From classical to perspectives and trends</p> <p>7. Key enzimes in biorefinery</p> <p>8. Technology toward biochemical precursors and bioplastic production</p> <p>9. Fine specialty chemicals for food and feed applications</p> <p>Section 3 Conversion of biomass to high-value products <br>10. Gasification/pyrolysis/torrefaction</p> <p>11. Thermal, hydrothermal liquefaction, and electromagnetic processes for biomass conversion</p> <p>12. Progress and challenges for microbial fermentation processes within the biorefinery context</p> <p>13. Consolidated bioprocessing for ethanol and butanol production from lignocellulosic biomass: Recent advances in strain and process engineering</p> <p>Section 4 Downstream recovery and separation<br>14. Overview of downstream product recovery technology in biorefinery</p> <p>15. Key unit operations in biorefinery processes</p> <p>Section 5 Process creation, design and analysis <br>16. Sustainable biorefinery process synthesis, design, and simulation: Systematic computer aided methods and tools</p> <p>17. Consequential life cycle assessment: Evaluating the environmental impact of dairy manure treatment using thermochemical conversion technologies</p> <p>Section 6 Tools and complete case studies<br>18. Complete design case study for pulp and paper industry</p> <p>19. Conceptual design of sugarcane biorefinery upgrading molasses to value-added chemicals</p> <p>20. Superstructure optimization of microalgal biorefinery producing biodiesel</p> <p>21. Perspectives, challenges and future directions</p>