Algal Bioreactors

Algal Bioreactors: Science, Engineering and Technology of Downstream Processes, Volume Two, is part of a comprehensive two-volume set that provides the knowledge needed to design, develop, and operate algal bioreactors for the production of renewable resources. Supported by critical parameters and properties, mathematical models and calculations, methods, and practical real-world case studies, readers will find everything they need to know on the upstream and downstream processes of algal bioreactors for renewable resource production.Bringing together renowned experts in microalgal biotechnology, this book will help researchers, scientists, and engineers from academia and industry overcome barriers and advance the production of renewable resources and renewable energy from algae. Students will also find invaluable explanations of the fundamentals and key principles of algal bioreactors, making it an accessible read for students of engineering, microbiology, biochemistry, biotechnology, and environmental sciences.
- Presents the physical, biological, environmental, and economic parameters of downstream processes in the operation and development of algal bioreactors to produce renewable resources- Explains the main configurations and designs of algal bioreactors, presenting recent innovations and future trends- Integrates the scientific, engineering, technology, environmental, and economic aspects of producing renewable resources and other valuable bioproducts using algal bioreactors- Provides real-world case studies at various scales to demonstrate the practical implementation of the various technologies and methods discussed

Part I - Fundamentals of science in downstream processes for the production of renewables1. Downstream principles in algae bioprocesses for the production of renewables2. Importance of biological knowledge in downstream processes for the production of renewables3. Conventional and advanced procedures in downstream processes: An overviewPart II - Engineering and technology approach to harvesting, dewatering, and drying processes for the production of renewables4. Implementing sedimentation techniques in downstream processes in algae bioreactors5. Advances in primary recovery for algae bioreactors: The centrifugation role6. Current progress of filtration techniques for recovery of production of renewables7. Conventional and alternative flotation techniques for algae harvesting8. Recent advancement of coagulation-flocculation in downstream processes from algae bioreactors9. Conventional drying methods to algae biomass: Their applications and recent advancesPart III - Cell rupture, extraction, and separation/purification methods of target molecules for the production of renewables10. Effect of bead milling as pre-treatment for cell physical disruption for renewables production exploitation11. Potential applications of high-pressure homogenization in cell algae disruption: A path for production renewables12. Microwave pre-treatment: A promising strategy to improve the clean extraction yield of renewables13. Algae renewable extracts: The benefits and drawbacks of ultrasound-assisted14. Applications of pulsed electric field treatments for the enhancement of cell physical disruption for the production of renewables15. Steam-explosion pre-treatment for algae cell disruption: A suggestion for renewable production expansion16. The mechanisms of hydrothermal as cell thermal disruption for the production of renewables17. Cycles of freeze-thawing as an efficient method to cell disruption18. Osmotic shock pre-treatment: An alternative cell disruption for wet algae biomass extraction19. Enzymatic treatment as cell biological disruption for the production of renewables20. Surface-active agents for the disruption of algae cell walls: An alternative for lipid extraction21. Conventional solvent extraction and alternative greener solvents - a sustainable perspective22. Supercritical fluids as novel cell disruption procedures for the production of renewables23. Techniques of adsorption, partition, ion-exchange and molecular exclusion for separation extracts: Chromatography approaches24. Advances in separation by ionic strength: Ionic liquids interactions and ion-exchange chromatography purificationPart IV - Energy demand, costs, sustainability strategies, and innovations for downstream processes in the production of renewables25. Energy demand and efficiency applied to downstream processes for the production of renewables26. Techno-economic analysis of downstream processes in algae bioprocesses for the production of renewables27. How can the process intensification concept and the optimization of downstream steps become algae bioprocesses more sustainable?28. The importance of downstream processes in algae biorefinery concept29. Recent patents and relevant innovations in technology and methods for downstream processes