Alternative Energy Sources for Green Chemistry
The use of alternative energy forms and transfer mechanisms is one of the key approaches of process intensification. In recent years, significant amounts of research have been carried out in developing chemical processing technologies enhanced by plasma, electric and magnetic fields, electromagnetic and ultra-sound waves and high gravity fields. Discussing the broad impact of alternative energy transfer technologies on reactions, separations and materials synthesis, this book reports on recent breakthrough results in various application areas. It provides a comprehensive overview of the current developments in the field. The book enables industrialists, academics and postgraduates in alternative-energy based processing to see the potential of alternative energies for green chemistry and sustainability of chemical manufacturing.
Alternative Energy Sources for Green Chemistry, The Royal Society of Chemistry, 2016.
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CHAPTER 1: Microwave-Assisted Green Organic Synthesisp1-33ByAntonio de la Hoz;Antonio de la HozFacultad de Ciencias y Tecnologías Químicas, Universidad de Castilla-La ManchaAvda. Camilo José Cela, 10E-13071 Ciudad RealSpain[email protected]Search for other works by this author on:Angel Díaz-Ortiz;Angel Díaz-OrtizFacultad de Ciencias y Tecnologías Químicas, Universidad de Castilla-La ManchaAvda. Camilo José Cela, 10E-13071 Ciudad RealSpain[email protected]Search for other works by this author on:Pilar PrietoPilar PrietoFacultad de Ciencias y Tecnologías Químicas, Universidad de Castilla-La ManchaAvda. Camilo José Cela, 10E-13071 Ciudad RealSpain[email protected]Search for other works by this author on:
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CHAPTER 2: Microwave-Assisted Plant Extraction Processesp34-63ByRafael B. Mato Chaín;Rafael B. Mato ChaínDepartamento de Ingeniería Química y Tecnología del Medio Ambiente, Universidad de Valladolidc/ Dr Mergelina S/N47011 ValladolidSpain[email protected]Search for other works by this author on:Juan Monzó-Cabrera;Juan Monzó-CabreraDepartamento de Tecnologías de la Información y las Comunicaciones, Universidad Politécnica de CartagenaCampus Muralla del Mar S/N30202 CartagenaSpainSearch for other works by this author on:Katalin SolyomKatalin SolyomFraunhofer Institute for Interfacial Engineering and Biotechnology, Physical Process TechnologyNobelstraße 1270569 StuttgartGermanySearch for other works by this author on:
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CHAPTER 3: Low-Temperature Microwave Pyrolysis and Large Scale Microwave Applicationsp64-92ByJiajun Fan;Jiajun FanGreen Chemistry Centre of Excellence, Department of Chemistry, University of YorkYork YO10 5DDUK[email protected]Search for other works by this author on:Vitaliy Budarin;Vitaliy BudarinGreen Chemistry Centre of Excellence, Department of Chemistry, University of YorkYork YO10 5DDUK[email protected]Search for other works by this author on:Mark J. Gronnow;Mark J. GronnowBiorenewables Development Centre, The BiocentreYork Science ParkYorkYO10 5NYUKSearch for other works by this author on:James H. ClarkJames H. ClarkGreen Chemistry Centre of Excellence, Department of Chemistry, University of YorkYork YO10 5DDUK[email protected]Search for other works by this author on:
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CHAPTER 4: Microwave Reactor Concepts: From Resonant Cavities to Traveling Fieldsp93-125ByGuido S. J. Sturm;Guido S. J. SturmProcess and Energy Department, Delft University of TechnologyLeeghwaterstraat 392628 CB DelftThe Netherlands[email protected]Search for other works by this author on:Andrzej I. Stankiewicz;Andrzej I. StankiewiczProcess and Energy Department, Delft University of TechnologyLeeghwaterstraat 392628 CB DelftThe Netherlands[email protected]Search for other works by this author on:Georgios D. StefanidisGeorgios D. StefanidisChemical Engineering Department, Katholieke Universiteit LeuvenWillem de Croylaan 463000 LeuvenBelgium[email protected]Search for other works by this author on:
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CHAPTER 5: Greener Processing Routes for Reactions and Separations Based on Use of Ultrasound and Hydrodynamic Cavitationp126-160ByParag R. GogateParag R. GogateChemical Engineering Department, Institute of Chemical TechnologyMatungaMumbai – 400 019India[email protected][email protected]Search for other works by this author on:
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CHAPTER 6: Magnetically Assisted Separations in Chemical Industry and Biotechnology: Basic Principles and Applicationsp161-197ByJordan HristovJordan HristovDepartment of Chemical Engineering, University of Chemical Technology and Metallurgy8 Kliment Ohridsky, blvd.Sofia 1756Bulgaria[email protected]http://hristov.com/jordanSearch for other works by this author on:
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CHAPTER 7: Prospects of Magnetic Nanoparticles for Magnetic Field-Assisted Mixing of Fluids with Relevance to Chemical Engineeringp198-226ByFaïçal LarachiFaïçal LarachiSearch for other works by this author on:
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CHAPTER 8: Photocatalysis: Past Achievements and Future Trendsp227-269ByFatemeh Khodadadian;Fatemeh KhodadadianDepartment of Process and Energy, Delft University of TechnologyLeeghwaterstraat 39DelftThe NetherlandsSearch for other works by this author on:Maxim Nasalevich;Maxim NasalevichDepartment of Chemical Engineering, Delft University of TechnologyJulianalaan 136DelftThe Netherlands[email protected]Search for other works by this author on:Freek Kapteijn;Freek KapteijnDepartment of Chemical Engineering, Delft University of TechnologyJulianalaan 136DelftThe Netherlands[email protected]Search for other works by this author on:Andrzej I. Stankiewicz;Andrzej I. StankiewiczDepartment of Process and Energy, Delft University of TechnologyLeeghwaterstraat 39DelftThe NetherlandsSearch for other works by this author on:Richard Lakerveld;Richard LakerveldDepartment of Chemical and Biomolecular Engineering, The Hong Kong University of Science and TechnologyClear Water BayKowloonHong KongSearch for other works by this author on:Jorge GasconJorge GasconDepartment of Chemical Engineering, Delft University of TechnologyJulianalaan 136DelftThe Netherlands[email protected]Search for other works by this author on:
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CHAPTER 9: Photocatalytic Reactors in Environmental Applicationsp270-295ByM. Enis Leblebici;M. Enis LeblebiciProcess Engineering for Sustainable Systems (ProcESS), Department of Chemical Engineering, KU LeuvenBelgium[email protected]Search for other works by this author on:Georgios D. Stefanidis;Georgios D. StefanidisProcess Engineering for Sustainable Systems (ProcESS), Department of Chemical Engineering, KU LeuvenBelgium[email protected]Search for other works by this author on:Tom Van GervenTom Van GervenProcess Engineering for Sustainable Systems (ProcESS), Department of Chemical Engineering, KU LeuvenBelgium[email protected]Search for other works by this author on:
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CHAPTER 10: Plasma-Assisted Nitrogen Fixation Reactionsp296-338ByB. S. Patil;B. S. PatilLaboratory of Chemical Reactor Engineering/Micro Flow Chemistry and Process Technology, Department of Chemical Engineering and Chemistry, Eindhoven University of TechnologyP.O. Box 5135600 MB EindhovenThe Netherlands[email protected]Search for other works by this author on:V. Hessel;V. HesselLaboratory of Chemical Reactor Engineering/Micro Flow Chemistry and Process Technology, Department of Chemical Engineering and Chemistry, Eindhoven University of TechnologyP.O. Box 5135600 MB EindhovenThe Netherlands[email protected]Search for other works by this author on:J. Lang;J. LangInnovation Management, Verfahrenstechnik & Engineering, Evonik Industries AGRodenbacher Chaussee 463457 Hanau-WolfgangGermanySearch for other works by this author on:Q. WangQ. WangLaboratory of Chemical Reactor Engineering/Micro Flow Chemistry and Process Technology, Department of Chemical Engineering and Chemistry, Eindhoven University of TechnologyP.O. Box 5135600 MB EindhovenThe Netherlands[email protected]Search for other works by this author on:
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CHAPTER 11: Higee Technologies and Their Applications to Green Intensified Processingp339-359ByKamelia V. K. BoodhooKamelia V. K. BoodhooSchool of Chemical Engineering and Advanced Materials, Newcastle UniversityNewcastle upon TyneNE1 7RUUK[email protected]Search for other works by this author on:
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CHAPTER 12: High-Gravity Operation in Vortex Chambers for the Generation of High-Efficiency Fluidized Bedsp360-404ByWaldo Rosales Trujillo;Waldo Rosales TrujilloUniversité Catholique de Louvain, Materials and Process Engineering (iMMC-IMAP)Place Sainte Barbe 21348 Louvain-la-NeuveBelgium[email protected]Search for other works by this author on:Juray De WildeJuray De WildeUniversité Catholique de Louvain, Materials and Process Engineering (iMMC-IMAP)Place Sainte Barbe 21348 Louvain-la-NeuveBelgium[email protected]Search for other works by this author on:
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