Algae Biotechnology: Integrated Algal Engineering for Bioenergy, Bioremediation, and Biomedical Applications covers key applications of algae for bioenergy and how to integrate the production of biofuels with environmental, nutraceutical and biomedical processes and products. The book emphasizes cost-effective biofuels production through integrated biorefinery, combining continuous processes and various algae as feedstock to produce biofuel, bioenergy and various high value biochemicals. Novel algal culturing technologies and bioprocess engineering techniques are provided for the optimization of operational approaches for commercial-scale production, as well as to reduce the overall costs. New and existing molecular methods for genetic and metabolic engineering of algae are also presented.
Furthermore, methods for the optimization of existing biochemical pathways are explained, and new pathways are introduced, in order to maximize the potential for biofuels production and related nutraceutical and biomedical co-products. This book provides an ideal roadmap for bioenergy researchers and engineers who want to incorporate valuable nutraceutical and biomedical products and environmental practices into the production of biofuels.
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Table of Contents
Part 1: Environmental Sector 1. Algal engineering for bioremediation, bioenergy production, and biomedical applications 2. Microalgae Biotechnology for Bioremediation Application 3. Bioremediation of wastewater through algae and bio-energy co-generation 4. Microalgae for bioremediation of pesticides: Overview, challenges, and future trends 5. Algae Harvesting: Application of Natural Coagulants 6. Microalgae cultivation in wastewater from agro-industries: an approach integrated for bioremediation and biomass production 7. Microalgae-based systems applied to the dual purpose of waste bioremediation and bioenergy production
Part 2: Bioenergy Sector 8. Comprehensive utilization of lipid and starch from microalgae (Chlorella vulgaris) 9. Algae: An Emerging Feedstock for Biofuels Production 10. Microalgal biofuels: A sustainable pathway for renewable energy 11. Thermal treatment kinetics of micro-algae for energy production 12. Microalgae as a feedstock: the challenges from harvest to the thermal gasification 13. Harnessing the potential of microalgal species Dunaliella: A Biofuel and Biocommodities perspective
Part 3: Biomedical Sector 14. Algae Cultivation for Biomedical Applications: Current Scenario and Future Direction 15. Biochemical Profiling, Transcriptomic Analysis, and Biotechnological Potential of Native Microalgae from the Peruvian Amazon 16. Algae in Medicine and Human Health 17.� Microalgae Biotechnology: Emerging biomedical applications 18. Low molecular weight metabolome of Synechocystis aquatilis Sauvageau, 1892 (Cyanophyceae: Merismopediaceae) and prospects for the use of its metabolites 19. Microalgae potentials as bioactive phytochemicals for human's health: Novel highlights on their production, applications, and emerging analytical technologies 20. Microalgae-based carotenoids: an overview of biomedical applications 21. Diatomite-based nanoparticles: fabrication strategies for medical applications�
Authors
Ashfaq Ahmad Research Scientist, Department of Chemical Engineering, Khalifa University of Science and Technology, Abu Dhabi, UAE. Dr. Ashfaq Ahmad is a postdoctoral research fellow at Khalifa University in Abu Dhabi, United Arab Emirates (UAE). He holds a Bachelor of Science (Honors) in Biotechnology from Pakistan's Sarhad University of Science and Information Technology (SUIT). He received a gold medal for securing the top position in his Bachelor's degree. In October 2013, he earned a Master's degree in Chemical Engineering from Malaysia's Universiti Teknologi PETRONAS (UTP). In May 2018, he received a Ph.D. in Chemical Engineering from Malaysia's Universiti Teknologi PETRONAS (UTP). He worked as a graduate teaching assistant and researcher at UTP during his MSc and PhD studies.His research interests include algal biotechnology for bioenergy, environmental remediation, and the production of high-value biochemicals. His scientific opinion is constantly sought by various journals editors, as evidenced by his active participation in more than 35 reputable journal as their trusted reviewer. He has authored or co-authored several book chapters. He serves as a peer reviewer for over 20 scientific journal. Fawzi Banat Professor in chemical engineering and the chairman, Department of Chemical Engineering, Khalifa University, Abu Dhabi, United Arab Emirates; McGill University, Montreal, QC, Canada. Dr. Fawzi Banat is a Professor and the Department Chair of Chemical Engineering at Khalifa University, Abu Dhabi, United Arab Emirates. He received his Ph.D. in Chemical Engineering from McGill University (Canada) in 1995. His research focuses on separation processes including membrane separations, desalination and wastewater treatment. Dr. Banat is the author of more than 200 academic papers, five patents, and six book chapters. He has delivered over 100 oral presentations at national and international conferences. He has participated (PI/co-PI) in various national and international projects funded by different institutions (European Union, Gas Research Center/ADNOC, Abu Dhabi Education Council (ADEC), The Petroleum Institute, Khalifa University).
Dr. Banat has received numerous honors and awards for research including Khalifa Award for Education/Distinguished University Professor in the Field of Scientific Research (2014) and Shoman Award for Young Arab Researchers (2000). He was listed among the Leading Scientists and Engineers of Organization of Islamic Cooperation (OIC) Member States (CMOSTECH 2008). He has held several administrative positions at different universities including Department Chair, Dean of Research, Dean of Graduate Studies and Acting Dean of Natural Resources Engineering. Hanifa AlBlooshi Department of Chemical Engineering, Khalifa University, Abu Dhabi, United Arab Emirates; United Arab Emirates University, Al-Ain, United Arab Emirates. Dr. Hanifa AlBlooshi earned her PhD in Chemical Engineering from the UAE University in June 2014. Her PhD and MSc research work both focused on the enzymatic production of biodiesel from lipids extracted from different feed stock using supercritical carbon dioxide, and developing and integrated production process. During her MSc and PhD studies, Dr. AlBlooshi was appointed as a graduate teaching assistant and researcher, respectively, at UAE University. In addition, she was a visiting scholar at the Virginia Commonwealth University, Virginia, USA, during that time. In March 2014, Dr. AlBlooshi joined Masdar Institute (now Khalifa University) as an Assistant Professor in the Department of Chemical and Environmental Engineering.
Dr. AlBlooshi has reviewed a number of research articles submitted for publication to international journals including Biomass and Bioenergy, Fuel, the Journal of Supercritical Fluids, and other waste management journals. In addition, she was a member in the organizing committees of several events organized by UAE University, including the Renewable Energy Conference in 2010 and 2012 and the Future UAE Energy and Environment Leaders' Competitions in 2013 and 2014.
