Handbook of waste biorefinery : circular economy of renewable energy
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Bibliographic Information
Handbook of waste biorefinery : circular economy of renewable energy
Springer, c2022
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Includes bibliographical references
Description and Table of Contents
Description
This handbook discusses the latest developments in biorefinery technologies for waste-to-energy conversion. The growing global population and the accompanying increase in consumption and waste production make it urgent to find the best possible use of our resources. A sustainable waste management under the biorefinery concept has great potential to support a sustainable circular economy and green energy production.
This handbook is divided into four parts. First, the reader is introduced to the fundamentals and recent trends of waste-to-energy technologies. The second part describes in detail the current status, challenges, and potential of the different feedstocks used for waste-to-energy conversion. Here, municipal solid waste, sewage sludge, oils and greases generated during food preparation, industrial wastewaters, and agricultural wastes, to name a few, are introduced.
In the third part, numerous waste-to-energy technologies are discussed in detail, including anaerobic digestion, composting, gasification, plasma technology, thermal cracking, and others. Advantages and optimization potentials of these technologies for efficient residue management, quality and yield are highlighted.
Finally, the handbook discusses social, environmental and economic aspects of waste-to-energy biorefinery technologies. Readers will learn more about the major bottlenecks and solutions in bioenergy commercialization, the logistics of biomass supply and the carbon footprint of waste biorefineries. The ideas and technologies presented in this book contribute to the UN Sustainable Development Goal (SDG) of "Affordable and Clean Energy".
This book is a useful reference for postgraduate students and researchers interested in biorefinery and biofuel technologies, both in academia- and commercial laboratories. Early career scientists can use it to fast track into the field. Advanced scientists will find it helpful in gaining a broader overview of the field beyond their area of specialization.
Table of Contents
Table of contents
Part I - Fundamentals
Chapter 1: Principles, concepts, and recent trends applied to the waste biorefineriesL. J. Correa, Federal University of Lavras, BrazilContact: luciano.correa@ufla.br
Chapter 2: Zero waste biorefineryB. Cheirsilp, Department of Industrial Biotechnology, ThailandContact: benjamas.che@psu.ac.th
Chapter 3: Waste biorefinery facilities: The feedstock choiceM.M. Maroneze and L.Q. Zepka, National Autonomous University of Mexico and Federal University of Santa Maria, Brazil-MexicoContact: mariana_maroneze@hotmail.comContact: zepkaleila@yahoo.com.br
Chapter 4: Waste biorefinery in the context of the 4.0 industryJ. Zahn, Dupont Tate & Lyle Bioproducts, USAContact: James.A.Zahn@dupont.com
Chapter 5: Innovative markets from waste materialsM. E. Dal-Poz, Faculty of Applied Sciences, Administration and Institute of Economics - IE, UNICAMP, Brazil Contact: ester.dalpoz@fca.unicamp.br
Chapter 6: Pretreatment emerging technologies applied to waste biorefineryA. Jaiswal, School of Food Science & Environmental Health, Dublin, IrelandContact: amit.jaiswal@tudublin.ie
Chapter 7: Step forward on waste biorefineries: Technology bottlenecks and perspective on commercializationS. K. Maity Indian Institute of Technology Hyderabad, Kandi, IndiaContact: sunil_maity@che.iith.ac.in
Part II - Feedstocks
Chapter 8: Municipal solid wastesH. A. Aziz, School of Civil Engineering, Universiti Sains Malaysia, Malaysia Contact: cehamidi@usm.my
Chapter 9: Sewage sludge domesticK. Mohanty, Indian Institute of Technology Guwahati,IndiaContact: kmohanty@iitg.ac.in
Chapter 10: Fats, oils and greases (FOG)S. C. Popat, Department of Environmental Engineering and Earth Sciences, Clemson University, USAContact: spopat@clemson.edu
Chapter 11: Industrial wastewatersP. Jha, Amity Institute of Biotechnology Amity University, Kolkata, IndiaContact: priyanka.bt.jha@gmail.com
Chapter 12: Energy economics of wastewater treatmentL.A.A.F. Al-Hadidi, King Fahd University of Petroleum and Minerals, Saudi Arabia Contact: lhadidi@kfupm.edu.sa
Chapter 13: Food wastesT. I. J. Dugmore, Green Chemistry Centre of Excellence, University of York, UKContact: tom.dugmore@york.ac.uk
Chapter 14: Agricultural waste-derivedO.E. Diemuodeke, Faculty of Engineering, University of Port HarcourtRivers State, Nigeria. Contact: ogheneruona.diemuodeke@uniport.edu.ng
Chapter 15: Livestock wastesA. Cardenas, Leibniz-Institut fur Agrartechnik und Biooekonomie Germany Contact: ACardenas@atb-potsdam.de
Chapter 16: Forestry residuesD.A. Gatto, Engineering Center, Federal University of Pelotas, BrazilContact: darcigatto@yahoo.com
Chapter 17: Microalgae biomassR. Kataki, Department of Energy Tezpur, University Tezpur, IndiaContact: rupamkataki@gmail.com
Chapter 18: Yeast biomassE.N.O. Junior, Federal University of Sao Joao del Rei, BrazilContact: eniobio@ufsj.edu.br
Chapter 19: Waste-to-ChemicalsA. Jayaseelan, Center for Waste Management, Institute of Science and Technology, IndiaContact: arunjayaseelan93@gmail.com
Part III - Waste to energy-food-feed-chemical-material technologies (WtEFFCM-Tech)
Chapter 20: Anaerobic digestion technologiesS. Baroutian, Department of Chemical & Materials Engineering, The University of Auckland, New ZealandContact: s.baroutian@auckland.ac.nz
Chapter 21: FermentationD. Farias, Toulouse Biotechnology Institute, France Contact: danielefarias_@hotmail.com
Chapter 22: CompostingA. Sahu, ICAR- Indian Institute of Soil Science, Bhopal 462038, IndiaContact: ashaars.iiss@gmail.com
Chapter 23: PyrolysisS. Ghysels, Department of Green Chemistry and Technology, Ghent University, Belgium Contact: Stef.Ghysels@ugent.be
Chapter 24: GasificationS. Nandi, Savitribai Phule Pune University, Ganeshkhind, IndiaContact: somnath.nandi11@gmail.com
Chapter 25: Incineration and open waste burningB. Das, Central Department of Environmental Science, Tribhuvan University, NepalContact: bhupenids@gmail.com
Chapter 26: TorrefactionT.A. Mamvura, College of Engineering and Technology, BotswanaContact: atmamvura@gmail.com
Chapter 27: Hydrothermal liquefactionR. Cuevas-Garcia, Universidad Nacional Autonoma de Mexico, MexicoContact: cuevas@unam.mx
Chapter 28: Landfill gas utilizationA.N. Srivastava, Indian Institute of Technology Delhi, IndiaContact: abhishekiitdelhi17@gmail.com
Chapter 29: Plasma technologyL. Agun, Universiti Teknologi Malaysia, MalaysiaContact: lindaagun@yahoo.com
Chapter 30: Thermal crackingA. Al-Absi, University of Calgary, CanadaContact: Akramalabsi75@gmail.com
Chapter 31: Hydrothermal carbonizationE. Bevan, The University of Edinburgh, UKContact: eloise.alice.rose@gmail.com
Chapter 32: Microbial fuel cellsR. Banu, Regional Centre of Anna University, IndiaContact: rajeshces@gmail.com
Part IV - Criteria for policy, social, environmental, intellectual property, and economic aspects
Chapter 33: Political challenges of circular economyL.A. Swatuk, University of Waterloo, CanadaContact: lswatuk@uwaterloo.ca
Chapter 34: Legal incentives for green technologies and circular economyR. Ballardini University of Lapland, FinlandContact: Rosa.Ballardini@ulapland.fi
Chapter 35: Socio-political acceptance of waste reutilizationC.H. Choong, Universiti Teknologi Malaysia, MalaysiaContact: honchoong915@gmail.com
Chapter 36: Strategy and design of innovation policy road mapping for waste biorefineriesT. Bhaskar, Indian Institute of Petroleum, IndiaContact: thalladab@yahoo.com
Chapter 37: Life cycle assessment on waste biorefineriesM. Thonsem, Department of Environmental Science, Aarhus University DenmarkContact: mth@envs.au.dk
Chapter 38: Exergy analysis of waste biorefineriesC. Ofori-Boateng, School of Chemical Engineering, Universiti Sains Malaysia, MalaysiaContact: cyndykote@yahoo.com
Chapter 39: Carbon footprint on waste biorefineries
M.C. Depra and E. Jacob-Lopes, Federal University of Santa Maria, BrazilContact: marianydepra@gmail.comContact: ejacoblopes@gmail.com
Chapter 40: Innovation management on waste biorefineriesJ.D.M. Martins, Lisbon Higher Institute of Accounting and Administration, PortugalContact: zdmmartins@gmail.com
Chapter 41: Research, development, and innovation on biorefineriesK. Zhao, Dalian Maritime University, ChinaContact: kai.zhao@hotmail.fr
Chapter 42: Industrial economy and technological management in the context of waste biorefineriesO. Turgut, Norwegian University of Science and Technology, NorwayContact: ozgu.turgut@ntnu.no
Chapter 43: Socioeconomic aspects of the waste biorefineriesA. Kumar, Lovely Professional University, IndiaContact: kumarajaybiotech@gmail.com
Chapter 44: The bioeconomy of waste biorefineriesM. Kircher, KADIB Kircher Advice in Bioeconomy, GermanyContact: kircher@kadib.de
Chapter 45: Techno-economic aspects of waste biorefineriesA. Halog, The University of Queensland, AustraliaContact: a.halog@uq.edu.au
Chapter 46: Scale-up of waste biorefineries systemsC.A.O. Filho, National Biorenewables Laboratory, BrazilContact: carlos.filho@lnbr.cnpem.br
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