Biomass, Biofuels, Biochemicals
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portes grátis
Biomass, Biofuels, Biochemicals
Circular Bioeconomy: Technologies for Biofuels and Biochemicals
Varjani, Sunita; Bhaskar, Thallada; Pandey, Ashok; Tsang, Daniel C.W.; Mohan, S.Venkata
Elsevier - Health Sciences Division
12/2021
672
Mole
Inglês
9780323898553
15 a 20 dias
1360
Descrição não disponível.
Section 1: Integrated technologies for the production of biofuels 1. Sustainable biorefineries for circular bioeconomy 2. Sustainable technologies for biodiesel production from microbial lipids 3. Integrated thermochemical and biochemical processes for the production of biofuels and biochemicals 4. Integrated technologies for extractives recovery, fractionation and bioethanol production from lignocellulose 5. Integrated technologies for biohydrogen production
Section 2: Integrated technologies for the production of chemicals and other value-added products 6. Integrated bio-based processes for the production of industrially important chemicals 7. Integrated processing of soybean for a circular bioeconomy 8. Integrated technologies for the production of antioxidant compounds and prebiotic oligosaccharides from lignocellulosic biomass 9. Integrated technologies for bio-based materials preparation 10. Sustainable technologies for damaged grains utilization 11. Sustainable technologies for the production of sophorolipids from renewable wastes 12. Sustainable chemical and biological technologies for the production of enantiopure added-value molecules in biorefineries 13. Sustainable production and applications of biochar in circular bioeconomy 14. Genetically modified microorganisms for the sustainable production of biofertilizers 15. Innovative protein and enzyme engineering processes for the production of biomass hydrolyzing enzymes 16. Hydrothermal liquefaction of biomass for the production of value-added products Bioconversion of waste glycerol from biodiesel industry to value-added products 17. Bioconversion of waste glycerol from biodiesel industry to value-added products 18. Integrated processes for the production of pharmaceutical products utilizing agricultural wastes 19. Sustainable production of succinic acid by utilization of agricultural wastes 20. Bioresource utilization for environmental and health management in aquaculture and fisheries 21. Algae as sustainable food in space missions
Section 3: Techno-economic analysis and life-cycle assessment in Circular Bioeconomy 22. Techno-economic evaluation and life-cycle assessment of integrated biorefineries within a circular bioeconomy 23. Circular bioeconomy approaches for sustainability and carbon mitigation in microalgal biorefinery 24. Life-cycle assessment and economic analysis for sustainable waste to energy technologies 25. Circular bioeconomy in agricultural food supply chain and value addition 26. Integrated approach for technology transfer awareness of traditional knowledge for upliftment of circular bioeconomy
Section 2: Integrated technologies for the production of chemicals and other value-added products 6. Integrated bio-based processes for the production of industrially important chemicals 7. Integrated processing of soybean for a circular bioeconomy 8. Integrated technologies for the production of antioxidant compounds and prebiotic oligosaccharides from lignocellulosic biomass 9. Integrated technologies for bio-based materials preparation 10. Sustainable technologies for damaged grains utilization 11. Sustainable technologies for the production of sophorolipids from renewable wastes 12. Sustainable chemical and biological technologies for the production of enantiopure added-value molecules in biorefineries 13. Sustainable production and applications of biochar in circular bioeconomy 14. Genetically modified microorganisms for the sustainable production of biofertilizers 15. Innovative protein and enzyme engineering processes for the production of biomass hydrolyzing enzymes 16. Hydrothermal liquefaction of biomass for the production of value-added products Bioconversion of waste glycerol from biodiesel industry to value-added products 17. Bioconversion of waste glycerol from biodiesel industry to value-added products 18. Integrated processes for the production of pharmaceutical products utilizing agricultural wastes 19. Sustainable production of succinic acid by utilization of agricultural wastes 20. Bioresource utilization for environmental and health management in aquaculture and fisheries 21. Algae as sustainable food in space missions
Section 3: Techno-economic analysis and life-cycle assessment in Circular Bioeconomy 22. Techno-economic evaluation and life-cycle assessment of integrated biorefineries within a circular bioeconomy 23. Circular bioeconomy approaches for sustainability and carbon mitigation in microalgal biorefinery 24. Life-cycle assessment and economic analysis for sustainable waste to energy technologies 25. Circular bioeconomy in agricultural food supply chain and value addition 26. Integrated approach for technology transfer awareness of traditional knowledge for upliftment of circular bioeconomy
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?Agriculture; Agro-food waste; Algal food; Antimicrobial activity; Antioxidant; Aquaculture; Benefit sharing; Bio-based chemicals; Bio-based chemicals and polymers; Bio-based material; Biocatalytic conversion; Biochar; Bioconversion; Biodiesel; Bioeconomy; Biofertilizers; Biofuel; Biofuels; Biohydrogen production; Biomass; Bioprocesses; Bioproducts; Biorefinery; Bioregenerative life support system; Bioresource utilization; Biotransformations; Biowastes; Candida sp; Carbon mitigation; Catalysis; Cellulolytic enzymes; Chemical fertilizers; Circular bioeconomy; Circular economy; Climate change; Compost; Convention on biological diversity; Cost-benefit analysis; Crude glycerol; Cyanobacteria; Damaged grains; Deep eutectic solvent; Diastereomers; Diatoms; Directed evolution; Environment; Environmental and economic benefits; Environmental impacts; Enzymes; Fisheries; Food safety; Food waste; Haematococcus pluvialis; Hydrothermal liquefaction; IPCs; Integrated biorefinery; Integrated processes; Life cycle assessment; Life cycle costing; Lignin; Lignocellulose; Lupanine; Manufacturing process; Metabolic engineering; Microalgae; Microbial lipids; Oleaginous microbes; Pharmaceutical products; Platform chemicals; Pretreatment; Process integration; Production; Production wastes; Protein engineering; Pyrolysis and anaerobic digestion; Regulation; Renewable resource; Renewable resources; Socio-economy upliftment; Soil; Sophorolipid; Soybean hulls; Soybean molasses; Space missions; Sparteine; Starmerella sp; Succinic acid; Supply chain network; Sustainability; Sustainable raw materials; Sustainable technologies; Syngas fermentation; Techno-economic evaluation; Technology integration; Thermochemical and biochemical; Traditional knowledge; Value addition; Vegetable protein; Waste; Waste management
Section 1: Integrated technologies for the production of biofuels 1. Sustainable biorefineries for circular bioeconomy 2. Sustainable technologies for biodiesel production from microbial lipids 3. Integrated thermochemical and biochemical processes for the production of biofuels and biochemicals 4. Integrated technologies for extractives recovery, fractionation and bioethanol production from lignocellulose 5. Integrated technologies for biohydrogen production
Section 2: Integrated technologies for the production of chemicals and other value-added products 6. Integrated bio-based processes for the production of industrially important chemicals 7. Integrated processing of soybean for a circular bioeconomy 8. Integrated technologies for the production of antioxidant compounds and prebiotic oligosaccharides from lignocellulosic biomass 9. Integrated technologies for bio-based materials preparation 10. Sustainable technologies for damaged grains utilization 11. Sustainable technologies for the production of sophorolipids from renewable wastes 12. Sustainable chemical and biological technologies for the production of enantiopure added-value molecules in biorefineries 13. Sustainable production and applications of biochar in circular bioeconomy 14. Genetically modified microorganisms for the sustainable production of biofertilizers 15. Innovative protein and enzyme engineering processes for the production of biomass hydrolyzing enzymes 16. Hydrothermal liquefaction of biomass for the production of value-added products Bioconversion of waste glycerol from biodiesel industry to value-added products 17. Bioconversion of waste glycerol from biodiesel industry to value-added products 18. Integrated processes for the production of pharmaceutical products utilizing agricultural wastes 19. Sustainable production of succinic acid by utilization of agricultural wastes 20. Bioresource utilization for environmental and health management in aquaculture and fisheries 21. Algae as sustainable food in space missions
Section 3: Techno-economic analysis and life-cycle assessment in Circular Bioeconomy 22. Techno-economic evaluation and life-cycle assessment of integrated biorefineries within a circular bioeconomy 23. Circular bioeconomy approaches for sustainability and carbon mitigation in microalgal biorefinery 24. Life-cycle assessment and economic analysis for sustainable waste to energy technologies 25. Circular bioeconomy in agricultural food supply chain and value addition 26. Integrated approach for technology transfer awareness of traditional knowledge for upliftment of circular bioeconomy
Section 2: Integrated technologies for the production of chemicals and other value-added products 6. Integrated bio-based processes for the production of industrially important chemicals 7. Integrated processing of soybean for a circular bioeconomy 8. Integrated technologies for the production of antioxidant compounds and prebiotic oligosaccharides from lignocellulosic biomass 9. Integrated technologies for bio-based materials preparation 10. Sustainable technologies for damaged grains utilization 11. Sustainable technologies for the production of sophorolipids from renewable wastes 12. Sustainable chemical and biological technologies for the production of enantiopure added-value molecules in biorefineries 13. Sustainable production and applications of biochar in circular bioeconomy 14. Genetically modified microorganisms for the sustainable production of biofertilizers 15. Innovative protein and enzyme engineering processes for the production of biomass hydrolyzing enzymes 16. Hydrothermal liquefaction of biomass for the production of value-added products Bioconversion of waste glycerol from biodiesel industry to value-added products 17. Bioconversion of waste glycerol from biodiesel industry to value-added products 18. Integrated processes for the production of pharmaceutical products utilizing agricultural wastes 19. Sustainable production of succinic acid by utilization of agricultural wastes 20. Bioresource utilization for environmental and health management in aquaculture and fisheries 21. Algae as sustainable food in space missions
Section 3: Techno-economic analysis and life-cycle assessment in Circular Bioeconomy 22. Techno-economic evaluation and life-cycle assessment of integrated biorefineries within a circular bioeconomy 23. Circular bioeconomy approaches for sustainability and carbon mitigation in microalgal biorefinery 24. Life-cycle assessment and economic analysis for sustainable waste to energy technologies 25. Circular bioeconomy in agricultural food supply chain and value addition 26. Integrated approach for technology transfer awareness of traditional knowledge for upliftment of circular bioeconomy
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
?Agriculture; Agro-food waste; Algal food; Antimicrobial activity; Antioxidant; Aquaculture; Benefit sharing; Bio-based chemicals; Bio-based chemicals and polymers; Bio-based material; Biocatalytic conversion; Biochar; Bioconversion; Biodiesel; Bioeconomy; Biofertilizers; Biofuel; Biofuels; Biohydrogen production; Biomass; Bioprocesses; Bioproducts; Biorefinery; Bioregenerative life support system; Bioresource utilization; Biotransformations; Biowastes; Candida sp; Carbon mitigation; Catalysis; Cellulolytic enzymes; Chemical fertilizers; Circular bioeconomy; Circular economy; Climate change; Compost; Convention on biological diversity; Cost-benefit analysis; Crude glycerol; Cyanobacteria; Damaged grains; Deep eutectic solvent; Diastereomers; Diatoms; Directed evolution; Environment; Environmental and economic benefits; Environmental impacts; Enzymes; Fisheries; Food safety; Food waste; Haematococcus pluvialis; Hydrothermal liquefaction; IPCs; Integrated biorefinery; Integrated processes; Life cycle assessment; Life cycle costing; Lignin; Lignocellulose; Lupanine; Manufacturing process; Metabolic engineering; Microalgae; Microbial lipids; Oleaginous microbes; Pharmaceutical products; Platform chemicals; Pretreatment; Process integration; Production; Production wastes; Protein engineering; Pyrolysis and anaerobic digestion; Regulation; Renewable resource; Renewable resources; Socio-economy upliftment; Soil; Sophorolipid; Soybean hulls; Soybean molasses; Space missions; Sparteine; Starmerella sp; Succinic acid; Supply chain network; Sustainability; Sustainable raw materials; Sustainable technologies; Syngas fermentation; Techno-economic evaluation; Technology integration; Thermochemical and biochemical; Traditional knowledge; Value addition; Vegetable protein; Waste; Waste management
