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Bagasse --- Papermaking --- Plastics
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Bagasse. --- Sugar --- Sugarcane products --- Manufacture and refining --- By-products
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The cane plant is probably the most efficient utilizer of sun energy for food production, and at the same time provides an equivalent quantity of biomass. The purpose of this book is to set down the unique position of sugar cane in the cogeneration field. Simultaneous with the development of distance-transmission of electricity, sugar cane processors started cogeneration, making use of the cane plant to supply the power for its own processing, and in recent years excess power for export.A broad view of cogeneration in the cane industry, covering the energy available in a crop, the tech
Cogeneration of electric power and heat. --- Sugarcane industry. --- Bagasse industry.
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Air --- Sugar factories --- Boilers --- Bagasse. --- Biomass energy. --- Pollution --- Measurement. --- Environmental aspects --- Fuel --- Testing.
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Air --- Sugar factories --- Boilers --- Bagasse. --- Biomass energy. --- Pollution --- Measurement. --- Environmental aspects --- Fuel --- Testing.
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The cane plant is probably the most efficient utilizer of sun energy for food production, and at the same time provides an equivalent quantity of biomass. The purpose of this book is to set down the unique position of sugar cane in the cogeneration field. Simultaneous with the development of distance-transmission of electricity, sugar cane processors started cogeneration, making use of the cane plant to supply the power for its own processing, and in recent years excess power for export.A broad view of cogeneration in the cane industry, covering the energy available in a crop, the tech
Cogeneration of electric power and heat. --- Sugarcane industry. --- Bagasse industry. --- Biomass energy industries --- Sugarcane industry --- Sugar trade --- Combined electric power and heat production --- Electric power and heat cogeneration --- Heat and electric power cogeneration --- Electric power production --- Heat
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The lack of growth in the Brazilian sugarcane-ethanol complex since the 2008 financial crisis has been blamed on policies: lower mandate, holding gasoline prices below world levels, high fuel taxes, and inadequate fuel tax exemptions for ethanol. This paper develops an empirical model of the Brazilian fuel-ethanol-sugar complex to analyze the impacts of these policies. Unlike biofuel mandates and tax exemptions elsewhere, Brazil's fuel-ethanol-sugar markets and fuel policies are unique such that each policy, in theory, has an ambiguous impact on the market price of ethanol and hence on sugarcane and sugar prices. The results indicate two policies that seemingly help the ethanol industry do otherwise in reality: low gasoline taxes and high anhydrous tax exemptions lower ethanol prices. But higher mandates, hydrous ethanol tax exemptions, and gasoline prices had the expected impact of increasing ethanol and sugar prices. Eliminating Brazilian ethanol tax exemptions and mandates reduces ethanol prices by 21 percent. Observed changes in prices are explained by outward shifts in fuel transportation and sugar export demand curves, and bad weather reducing sugarcane supply.
Alcohol and Substance Abuse --- Bagasse --- Blend mandate --- E100 demand --- E25 demand --- Energy --- Energy Production and Transportation --- Environment --- Ethanol --- Flex-plant --- Fuel tax exemptions --- Markets and Market Access --- Renewable Energy --- Sugar --- Sugarcane --- Transport and Environment --- Brazil
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Renewable fuels and chemicals derived from lignocellulosic biomass offer unprecedented opportunities for replacing fossil fuel derivatives, reducing our overdependence on imported oil, and mitigating current climate change trends. Despite technical developments and considerable efforts, breakthrough technologies are still required to overcome hurdles in developing sustainable biorefineries. In recent years, new biorefinery concepts including a lignin-first approach and a closed-loop biorefinery have been introduced to tackle technoeconomic challenges. Furthermore, researchers have advanced the development of new technologies which enable the utilization of biomass components for sustainable materials. It is now apparent that advanced processes are essential for ensuring the success of future biorefineries. This book presents processes for biomass fractionation, lignin valorization, and sugar conversion or introduces new bioproducts (chemicals and materials) from renewable resources, addressing the current status, technical/technoeconomic challenges, and new strategies.
Technology: general issues --- Biomass --- two-step pretreatment --- steam explosion --- organosolv treatment --- empty fruit bunch --- pinewood --- green pretreatment --- enzymatic hydrolysis --- lignin structural features --- poplar --- FTIR --- contaminants --- by-products --- lignin valorization --- lignin applications --- 3D printing --- electrochemical material --- medical application --- drying effect --- cellulose --- hornification --- porosity --- bioethanol --- economic analysis --- hand sanitiser --- oil palm empty fruit bunch (OPEFB) --- simultaneous saccharification and fermentation --- SuperPro Designer® --- renewable fuel --- high-density fuel --- α-pinene dimerization --- turpentine --- stannic chloride molten salt hydrates --- xylooligosaccharides --- autohydrolysis --- sweet sorghum bagasse --- isobutanol --- biorefinery --- metabolic engineering --- biomass utilization --- aqueous biphasic system --- dilute acid hydrolysate --- furfural production --- solvent extraction --- response surface methodology --- biomass fractionation --- bioproducts
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Renewable fuels and chemicals derived from lignocellulosic biomass offer unprecedented opportunities for replacing fossil fuel derivatives, reducing our overdependence on imported oil, and mitigating current climate change trends. Despite technical developments and considerable efforts, breakthrough technologies are still required to overcome hurdles in developing sustainable biorefineries. In recent years, new biorefinery concepts including a lignin-first approach and a closed-loop biorefinery have been introduced to tackle technoeconomic challenges. Furthermore, researchers have advanced the development of new technologies which enable the utilization of biomass components for sustainable materials. It is now apparent that advanced processes are essential for ensuring the success of future biorefineries. This book presents processes for biomass fractionation, lignin valorization, and sugar conversion or introduces new bioproducts (chemicals and materials) from renewable resources, addressing the current status, technical/technoeconomic challenges, and new strategies.
Technology: general issues --- Biomass --- two-step pretreatment --- steam explosion --- organosolv treatment --- empty fruit bunch --- pinewood --- green pretreatment --- enzymatic hydrolysis --- lignin structural features --- poplar --- FTIR --- contaminants --- by-products --- lignin valorization --- lignin applications --- 3D printing --- electrochemical material --- medical application --- drying effect --- cellulose --- hornification --- porosity --- bioethanol --- economic analysis --- hand sanitiser --- oil palm empty fruit bunch (OPEFB) --- simultaneous saccharification and fermentation --- SuperPro Designer® --- renewable fuel --- high-density fuel --- α-pinene dimerization --- turpentine --- stannic chloride molten salt hydrates --- xylooligosaccharides --- autohydrolysis --- sweet sorghum bagasse --- isobutanol --- biorefinery --- metabolic engineering --- biomass utilization --- aqueous biphasic system --- dilute acid hydrolysate --- furfural production --- solvent extraction --- response surface methodology --- biomass fractionation --- bioproducts
Choose an application
Renewable fuels and chemicals derived from lignocellulosic biomass offer unprecedented opportunities for replacing fossil fuel derivatives, reducing our overdependence on imported oil, and mitigating current climate change trends. Despite technical developments and considerable efforts, breakthrough technologies are still required to overcome hurdles in developing sustainable biorefineries. In recent years, new biorefinery concepts including a lignin-first approach and a closed-loop biorefinery have been introduced to tackle technoeconomic challenges. Furthermore, researchers have advanced the development of new technologies which enable the utilization of biomass components for sustainable materials. It is now apparent that advanced processes are essential for ensuring the success of future biorefineries. This book presents processes for biomass fractionation, lignin valorization, and sugar conversion or introduces new bioproducts (chemicals and materials) from renewable resources, addressing the current status, technical/technoeconomic challenges, and new strategies.
Biomass --- two-step pretreatment --- steam explosion --- organosolv treatment --- empty fruit bunch --- pinewood --- green pretreatment --- enzymatic hydrolysis --- lignin structural features --- poplar --- FTIR --- contaminants --- by-products --- lignin valorization --- lignin applications --- 3D printing --- electrochemical material --- medical application --- drying effect --- cellulose --- hornification --- porosity --- bioethanol --- economic analysis --- hand sanitiser --- oil palm empty fruit bunch (OPEFB) --- simultaneous saccharification and fermentation --- SuperPro Designer® --- renewable fuel --- high-density fuel --- α-pinene dimerization --- turpentine --- stannic chloride molten salt hydrates --- xylooligosaccharides --- autohydrolysis --- sweet sorghum bagasse --- isobutanol --- biorefinery --- metabolic engineering --- biomass utilization --- aqueous biphasic system --- dilute acid hydrolysate --- furfural production --- solvent extraction --- response surface methodology --- biomass fractionation --- bioproducts
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