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200 10$aHandbook of cellulosic ethanol /$fAnanda S. Amarasekara
210  1$aHoboken, New Jersey :$cWiley,$d2014.
210  4$dİ2014
215   $a1 online resource (604 p.)
300   $aDescription based upon print version of record.
311   $a1-118-23300-X 
320   $aIncludes bibliographical references and index.
327   $aCover; Title Page; Copyright Page; Contents; Preface; Part 1 Introduction to Cellulosic Ethanol; 1 Renewable Fuels; 1.1 Introduction; 1.2 Renewable Energy; 1.3 Biofuels; 1.3.1 Advantages of Biofuels; 1.3.2 Gaseous Biofuels; 1.3.3 Liquid Biofuels; 1.4 Renewable Energy in the United States; 1.4.1 Federal Agencies Promoting Renewable Energy; 1.4.2 Incentives for Renewable Fuels; 1.5 Renewable Fuel Legislature in the United States; 1.5.1 Renewable Fuel Standards of Energy Independence and Security Act of 2007; 1.5.2 US EPA 2013 Renewable Fuel Standards; References
327   $a2 Bioethanol as a Transportation Fuel2.1 Introduction - History of Bioethanol as a Transportation Fuel; 2.2 Alcohol Fuels; 2.3 Fuel Characteristics of Ethanol; 2.3.1 Disadvantages of Ethanol; 2.4 Corn and Sugarcane Ethanol; 2.4.1 First Generation Ethanol Production; 2.5 Advantages of Cellulosic Ethanol; References; 3 Feedstocks for Cellulosic Ethanol Production; 3.1 Introduction; 3.2 Cellulosic Ethanol Feedstock Types; 3.3 Potential of Agricultural Wastes; 3.4 Major Crop Residue Feedstock; 3.4.1 Corn Stover; 3.4.2 Wheat Straw; 3.4.3 Rice Straw; 3.4.4 Sugarcane Bagasse; 3.4.5 Barley Straw
327   $a3.5 Forestry Residue, Logging and Mill Residue3.6 Grass Feedstocks; 3.6.1 Switchgrass; 3.6.2 Miscanthus Grass; 3.6.3 Prairie Cordgrass; 3.6.4 Arundo Donax or Giant Reed; 3.6.5 Reed Canary Grass; 3.6.6 Alfalfa; 3.6.7 Other Grasses; 3.7 Purpose-Grown Trees as Feedstock; 3.7.1 Poplar; 3.7.2 Willows; 3.7.3 Pines; 3.7.4 Eucalyptus; 3.8 Municipal and Other Waste as Feedstock for Cellulosic Ethanol; 3.8.1 Municipal Waste Feedstock Utilizing Cellulosic Ethanol Plants; References; Part 2 Aqueous Phase Biomass Hydrolysis Route; 4 Challenges in Aqueous-Phase Biomass Hydrolysis Route: Recalcitrance
327   $a4.1 Introduction - Two Ways to Produce Cellulosic Ethanol4.2 Challenges in Aqueous-Phase Biomass Hydrolysis; 4.3 Structure of Plant Cells and Lignocellulosic Biomass; 4.4 Major Components of Lignocellulosic Biomass; 4.4.1 Cellulose; 4.4.2 Hemicellulose; 4.4.3 Lignin; 4.5 Cellulose Recalcitrance; References; 5 Pretreatment of Lignocellulosic Biomass; 5.1 Introduction; 5.2 Different Categories of Pretreatment Methods; 5.3 Physical Pretreatment; 5.3.1 Machinery Used in Physical Pretreatment; 5.3.2 Physical Pretreatment of Woody Biomass; 5.4 Physicochemical Pretreatment
327   $a5.4.1 Steam Explosion or Steam Pretreatment5.4.2 Liquid Hot Water (LHW) Pretreatment; 5.4.3 Ammonia-Based Pretreatments Method; 5.4.4 Ammonia Fiber/Freeze Explosion (AFEX); 5.4.5 Ammonia Recycle Percolation (ARP); 5.4.6 Soaking Aqueous Ammonia (SAA); 5.4.7 Supercritical Carbon Dioxide Pretreatment; 5.4.8 Organosolv Pretreatment; 5.4.9 Ionic Liquid (IL) Pretreatment; 5.4.10 N-Methyl Morpholine N-Oxide (NMMO) Pretreatment; 5.5 Chemical Pretreatment; 5.5.1 Aqueous Acid Pretreatment; 5.5.2 Sulfur Dioxide Pretreatment; 5.5.3 Alkaline Pretreatment Methods; 5.5.4 Lime Pretreatment
327   $a5.5.5 Aqueous Alkali Hydroxide-Based Pretreatments
330   $a The inevitable decline in petroleum reserves impacting gasoline prices, combined with climate change concerns have contributed to current interest in renewable fuels. Bioethanol is the most successful renewable transport fuel. Corn and sugarcane ethanol are currently widely used as blend-in fuels in the US, Brazil, and a few other countries; however, there are a number of major drawbacks in these first generation biofuels, such as their effect on food prices, net energy balance, and poor greenhouse gas mitigation. Alternatively, cellulosic ethanol can be produced from abundant lignocellulos
606   $aCellulosic ethanol
615  0$aCellulosic ethanol.
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200 10$aWater fluoridation principles and practices
205   $a6th ed.
210 31$a[Place of publication not identified]$cAmerican Water Works Association$d2016
215   $a1 online resource (145 pages)
225 0 $aManual of water supply  Water fluoridation principles and practices
300   $aBibliographic Level Mode of Issuance: Monograph
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327   $aWater fluoridation -- Health and human body -- Fluoride products -- System planning -- Design, equipment & installation -- Operations & maintenance -- Defluoridation & managing fluoride levels -- Small systems considerations -- Community outreach and communication.
330   $aEssential information for decision makers planning fluoridation installations, engineers designing them, and water utility personnel operating them.
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