Advanced Technology for the Conversion of Waste into Fuels and Chemicals

Advanced Technology for the Conversion of Waste into Fuels and Chemicals: Volume 1: Biological Processes presents advanced and combined techniques that can be used to convert waste to energy, including combustion, gasification, paralysis, anaerobic digestion and fermentation. The book focuses on solid waste conversion to fuel and energy and presents the latest advances in the design, manufacture, and application of conversion technologies. Contributors from the fields of physics, chemistry, metallurgy, engineering and manufacturing present a truly trans-disciplinary picture of the field. Chapters cover important aspects surrounding the conversion of solid waste into fuel and chemicals, describing how valuable energy can be recouped from various waste materials.

As huge volumes of solid waste are produced globally while huge amounts of energy are produced from fossil fuels, the technologies described in this comprehensive book provide the information necessary to pursue clean, sustainable power from waste material.

Autorentext

Dr. Anish Khan is currently working as Assistant Professor in Chemistry Department, Centre of Excellence for Advanced Materials Research (CEAMR), Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia. Completed Ph.D. from Aligarh Muslim University, India in 2010. Completed Postdoctoral from School of Chemical Sciences, University Sains Malaysia (USM) in Electroanalytical chemistry in 2010. Working in the field of synthetic biosensor, polymer composites, organicinorganic electrically conducting nanocomposites. More than 200 research articles, 70 book chapters 30 books published in referred international publisher and more than 20 international conferences/ workshop. More than 30 research projects completed. Editorial board member of more than 11 international journals. Member of American Nano Society.

Prof. Dr. Mohammad Jawaid is currently working as Distinguished Professor at Chemical and Petroleum Engineering Department, United Arab Emirates University, UAE. He has more than 25 years of experience in teaching, research, and industries. His area of research interests includes hybrid composites, lignocellulosic reinforced/filled polymer composites, advance materials: graphene/nanoclay/fire retardant, modification and treatment of lignocellulosic fibers and solid wood, biopolymers and biopolymers for packaging applications, nanocomposites and nanocellulose fibers, and polymer blends. So far, he has published 100 books, more than 100 book chapters, more than 500 peer-reviewed international journal papers, and several published review papers under top 25 hot articles in science direct during 20132020. He also obtained 6 Patents and 6 Copyrights/Industrial design. H-index and citation in Scopus are 101 and 43525 and in Google scholar, and H-index and citation are 120 and 58132. 40 Ph.D. and 17 Master's students graduated under his supervision in 20142024 in the fields of hybrid composites, green composites, nanocomposites, natural fiber-reinforced composites, nanocellulose, etc. He secured various research grants at university, national, and international levels on polymer composites of around USD 3 Million. He also delivered plenary and invited talks in international conferences related to composites in India, Turkey, Malaysia, Thailand, United Kingdom, France, Saudi Arabia, Egypt, China, Germany, Indonesia, Spain, UAE, Portagal, etc. Besides that, he is also a member of technical committees of several national and international conferences on composites and material science. He is founding Series Editor of Springer Three Book Series. He worked as guest editor of special issues of Several Peer reviewed Journals. Besides that, he is also reviewer of several high-impact international peer-reviewed journals of Elsevier, Springer, Wiley, Saga, ACS, RSC, Frontiers, etc. Dr. Mohammad Jawaid also received Several Award at National and International Level. He is also Winner of Newton-Ungku Omar Coordination Fund: UK-Malaysia Research and Innovation Bridges Competition 2015. He is also Professional membership of ACS, SPE, APA, MySET, etc. He is Fellow and Chartered Scientist of The Institute of Materials, Minerals & Mining (IOM3), UK. He is also Clarivate 1% Highly cited Researcher-2023.

Antonio Pizzi works in LERMAB at the University of Lorraine, Epinal, France.Naved Azum works in the Centre of Excellence for Advanced Materials Research, Chemistry Department, Faculty of Science at King Abdulaziz University, Jeddah, Saudi ArabiaProf. Abdullah M. Asiri is the Head of the Chemistry Department at King Abdulaziz University since October 2009 and he is the founder and the Director of the Center of Excellence for Advanced Materials Research (CEAMR) since 2010 till date. He is the Professor of Organic Photochemistry. His research interest covers color chemistry, synthesis of novel photochromic and thermochromic systems, synthesis of novel coloring matters and dyeing of textiles, materials chemistry, nanochemistry and nanotechnology, polymers and plastics. A major achievement of Prof. Asiri is the discovery of tribochromic compounds, a class of compounds which change from slightly or colorless to deep colored when subjected to small pressure or when grind. This discovery was introduced to the scientific community as a new terminology published by IUPAC in 2000. This discovery was awarded a patent from European Patent office and from UK patent. He is also a member of the Editorial Board of various journals of international repute. He is the Vice- President of Saudi Chemical Society (Western Province Branch). He holds four USA patents, more than 800 Publications in international journals, seven book chapters, and ten booksIllyas M.D. Isa works in the Chemistry Department at Universiti Pendidikan Sultan Idris (UPSI, Kuala Lumpur, Malaysia

Inhalt

1. Waste to Energy an overview by global perspective
   
   2. Catalytic pyrolysis production of Jet fuel from waste plastics
   3. The potential of sustainable biogas production from animal waste
   4. Integrated Conversion of waste Cellulosic waste to High-Density Aviation Fuel Thermochemical, and conversion methods of bio-derived lignocellulosic waste molecules into renewable fuels
   5. Biological conversion of lignocellulosic waste into renewable energy.
   6. Biochemical conversion of lignocellulosic waste into renewable energy
   7. Hybrid conversion of lignocelluloses into renewable energy
   8. Textile waste to a bio-energy conversion strategies
   9. Microbial fuel cell technology for Bioelectrochemical conversion of waste to energy
   10. Catalytic Production of Value-Added Chemicals and Liquid Fuels from waste
   11. Production of fuels and chemicals from renewable resources using engineered Escherichia coli
   12. Diesel engine performance and emissions with fuels derived from waste tyres
   13. Waste to Chemicals for a Circular Economy
   14. Current and future trends in food waste valorization for the production of chemicals, materials and fuels
   15. Perspectives and State of the Art in Producing Solar Fuels and Chemicals from CO2
   16. Fine Chemicals: Technology and Products
   17. Waste to liquid fuels: potency, progress and challenges
   18. Nanomaterials for the Conversion of Carbon Dioxide into Renewable Fuels
   19. Integrated Conversion of Cellulose to High-Density Aviation Fuel
   20. Recent trends on the waste valorization techniques for food wastes
   21. Waists treatments for energy technology
   22. Solid oxide fuel cell technology for sustainable development
   23. Energetic valorization of waste tires
   24. Advanced Vehicle Systems and Technologies: Economic and Environmental Implications
   25. Assessment of the energy recovery potential of waste Photovoltaic (PV) modules
   26. New approach to waste-heat energy harvesting: pyroelectric energy conversion
   27. Case study of industrial conversion of solid waste into energy or chemicals
   28. Laboratory was…