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Evaluation and Utilization of Bioethanol Fuels. I. Evaluation of Bioethanol Fuels Transport Engines and Bioethanol Sensors

This book aims to inform readers about the recent developments in the evaluation and utilization of bioethanol fuels. It covers the evaluation and utilization of bioethanol fuels in general gasoline fuels nanotechnology applications in bioethanol fuels utilization of bioethanol fuels in transport engines evaluation of bioethanol fuels utilization of bioethanol fuels in general and development and utilization of bioethanol fuel sensors. This book is the fifth volume in the Handbook of Bioethanol Fuels (Six-Volume Set). It indicates that research on the evaluation and utilization of bioethanol fuels has intensified in recent years to become a major part of bioenergy and biofuels research together primarily with biodiesel biohydrogen and biogas research as a sustainable alternative to crude oil-based gasoline and petrodiesel fuels as well as natural gas and syngas. This book is a valuable resource for stakeholders primarily in the research fields of energy and fuels chemical engineering environmental science and engineering biotechnology microbiology chemistry physics mechanical engineering agricultural sciences food science and engineering materials science biochemistry genetics and molecular biology plant sciences water resources economics business and management transportation science and technology ecology public environmental and occupational health social sciences toxicology multidisciplinary sciences and humanities among others. | Evaluation and Utilization of Bioethanol Fuels. I. Evaluation of Bioethanol Fuels Transport Engines and Bioethanol Sensors

GBP 140.00

1

Bioethanol Fuel Production Processes. II Biomass Hydrolysis Fermentation and Bioethanol Fuel Separation

This book provides an overview of the research on production processes for bioethanol fuels in general hydrolysis of the pretreated biomass for bioethanol production microbial fermentation of hydrolysates and substrates with yeasts for bioethanol production and separation and distillation of bioethanol fuels from the fermentation broth complementing the research on biomass pretreatments presented in the first volume. It presents an overview of the research on biomass hydrolysis in general wood hydrolysis straw hydrolysis and cellulose hydrolysis for bioethanol fuel production in the first section for biomass hydrolysis. It provides an overview of the research on microbial hydrolysate fermentation for bioethanol production in general alternative fermentation processes for bioethanol fuel production such as simultaneous saccharification and fermentation (SSF) and consolidated biomass processing (CBP) compared with the separate hydrolysis and fermentation (SHF) process metabolic engineering of microorganisms and substrates for bioethanol fuel production and utilization of Saccharomyces cerevisiae for microbial fermentation of hydrolysates for bioethanol fuel production in the second section for hydrolysate fermentation. It provides an overview of the research on the bioethanol fuel separation from the fermentation broth in the last section. This book is a valuable resource for the stakeholders primarily in the research fields of energy and fuels chemical engineering environmental science and engineering biotechnology microbiology chemistry physics mechanical engineering agricultural sciences food science and engineering materials science biochemistry genetics molecular biology plant sciences water resources economics business management transportations science and technology ecology public environmental and occupational health social sciences toxicology multidisciplinary sciences and humanities among others. | Bioethanol Fuel Production Processes. II Biomass Hydrolysis Fermentation and Bioethanol Fuel Separation

GBP 140.00

1

Feedstock-based Bioethanol Fuels. I. Non-Waste Feedstocks Starch Sugar Grass Wood Cellulose Algae and Biosyngas-based Bioethanol Fuels

This book aims to inform readers about the recent developments in production evaluation and utilization of bioethanol fuels from non-waste feedstocks. It covers the production of bioethanol fuels from first generation starch feedstocks and sugar feedstocks grass biomass wood biomass cellulose biosyngas and third generation algae. In this context there are nine key sections where the first four chapters cover the production of bioethanol fuels from feedstocks at large and non-waste feedstocks. This book shows that pretreatments and hydrolysis of the non-waste feedstocks fermentation of hydrolysates and separation and distillation of bioethanol fuels are the fundamental processes for bioethanol fuel production from these non-waste feedstocks with the exception of the biosyngas feedstocks. This book is a valuable resource for the stakeholders primarily in the research fields of energy and fuels chemical engineering environmental science and engineering biotechnology microbiology chemistry physics mechanical engineering agricultural sciences food science and engineering materials science biochemistry genetics molecular biology plant sciences water resources economics business and management transportation science and technology ecology public environmental and occupational health social sciences toxicology multidisciplinary sciences and humanities among others | Feedstock-based Bioethanol Fuels. I. Non-Waste Feedstocks Starch Sugar Grass Wood Cellulose Algae and Biosyngas-based Bioethanol Fuels

GBP 140.00

1

Bioethanol Fuel Production Processes. I Biomass Pretreatments

This book presents research on biomass pretreatments which are a fundamental part of bioethanol fuel production to make biomass more accessible. This book also includes an introductory section on the bioethanol fuels. Bioethanol Fuel Production Processes. I: Biomass Pretreatments is the first volume in the Handbook of Bioethanol Fuels (Six-Volume Set). The primary pretreatments at the macro level are the biological chemical hydrothermal and mechanical pretreatments of the biomass. It also has an introductory section on the biomass pretreatments at large for bioethanol fuel production. The major pretreatments at the micro level are the enzymatic and fungal pretreatments of the biomass as the biological pretreatments acid alkaline ionic liquid and organic solvent pretreatment pretreatments of the biomass as the chemical pretreatments steam explosion and liquid hot water pretreatments of the biomass as the hydrothermal pretreatments and milling ultrasonic and microwave pretreatments of the biomass as the mechanical pretreatments. The first volume also indicates that a wide range of pretreatments stand alone or in combination with each other fractionate the biomass to its constituents of cellulose lignin and hemicellulose and improve both sugar and bioethanol fuel yield making this bioethanol fuel more competitive in relation to crude oil- and natural gas-based fossil fuels. This first volume is a valuable resource for the stakeholders primarily in the research fields of energy and fuels chemical engineering environmental science and engineering biotechnology microbiology chemistry physics mechanical engineering agricultural sciences food science and engineering materials science biochemistry genetics molecular biology plant sciences water resources economics business management transportation science and technology ecology public environmental and occupational health social sciences toxicology multidisciplinary sciences and humanities among others. | Bioethanol Fuel Production Processes. I Biomass Pretreatments

GBP 140.00

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Evaluation and Utilization of Bioethanol Fuels. II. Biohydrogen Fuels Fuel Cells Biochemicals and Country Experiences

The sixth volume of this handbook provides an overview of the research on the country-based experience of bioethanol fuels at large Chinese US and European experience of bioethanol fuels production of bioethanol fuel-based biohydrogen fuels for fuel cells bioethanol fuel cells and bioethanol fuel-based biochemicals with a collection of 17 chapters. Thus it complements the fifth volume of this handbook. Hence the sixth volume indicates that the research on the evaluation and utilization of bioethanol fuels has intensified in recent years to become a major part of the bioenergy and biofuels research together primarily with biodiesel biohydrogen and biogas research as a sustainable alternative to crude oil-based gasoline and petrodiesel fuels as well as natural gas and syngas. This book is intended for students researchers engineers policy makers economist business managers and social scientists working on the production utilization and evaluation of bioethanol fuels. | Evaluation and Utilization of Bioethanol Fuels. II. Biohydrogen Fuels Fuel Cells Biochemicals and Country Experiences

GBP 140.00

1

Bioethanol Biochemistry and Biotechnological Advances

This new book Bioethanol: Biochemistry and Biotechnological Advances presents some insightful perspectives and important advances in the bioethanol industry. The volume goes into detail on the biochemical and physiological parameters carried out by the main bioethanol-producing microorganisms as well as the discusses the potential applications that bioproducts can have and the advantages they generate. The chapter authors discuss a variety of issues including the physiology of ethanol production by yeasts by Zymomonas mobilis and by Clostridium thermocellum. Other sources of biofuel such as sweet sorghum Agave americana L. leaves waste and fungi are included as well. Chapters also discuss the genetic regulation and genetic engineering of principal microorganisms and then go on to address ways to increase ethanol tolerance in industrially important ethanol fermenting organisms methods for developing sustainable fermentable substrates and new strategies for ethanol purification. Chapters explore the design and engineering requirements for bioreactors bioelectrosynthesis of ethanol via bioelectrochemical systems and more. The book will be a valuable resource for faculty and students in this area as well as for scientists researchers and managers in the biofuel industry in the area of biofuel production fermentation process environmental engineering and all other related scientific areas. | Bioethanol Biochemistry and Biotechnological Advances

GBP 154.00

1

Feedstock-based Bioethanol Fuels. II. Waste Feedstocks Agricultural Food Industrial Urban Forestry and Lignocellulosic Waste-based Bioe

This book provides an overview of research on the production of bioethanol fuels from waste feedstocks such as second-generation residual sugar and starch feedstocks food waste industrial waste urban waste forestry waste and lignocellulosic biomass at large with 17 chapters. In this context there are eight sections where the first two chapters cover the production of bioethanol fuels from waste feedstocks at large. This book is the fourth volume in the Handbook of Bioethanol Fuels (Six-Volume Set). It shows that pretreatments and hydrolysis of the waste feedstocks fermentation of hydrolysates and separation and distillation of bioethanol fuels are the fundamental processes for bioethanol fuel production from these waste feedstocks. This book is a valuable resource for stakeholders primarily in research fields of energy and fuels chemical engineering environmental science and engineering biotechnology microbiology chemistry physics mechanical engineering agricultural sciences food science and engineering materials science biochemistry genetics molecular biology plant sciences water resources economics business and management transportation science and technology ecology public environmental and occupational health social sciences toxicology multi-disciplinary sciences and humanities among others. | Feedstock-based Bioethanol Fuels. II. Waste Feedstocks Agricultural Food Industrial Urban Forestry and Lignocellulosic Waste-based Bioe

GBP 140.00

1

Bioenergy and Biofuels

This book aims to inform readers about the recent developments in bioenergy and biofuels covering current issues from an interdisciplinary approach. It will also feature coverage of anticipated future trends related to each particular biofuel. Chapters will consist of original research presented by world class experts in their respective fields. A number of interdisciplinary areas will be incorporated such as Energy & Fuels Biotechology Genomics Economics Optimization Chemical Engineering Mechanical Engineering and Algae Science. Examples will relate to a matrix of biofuel and energy types such as bioethanol biobutanol and biomethane.

GBP 170.00

1

Biofuel Production Biological Technologies and Methodologies

Biofuels and bioenergy have emerged as an alternative option based on their sustainability concomitant waste treatment and site-specific flexibility. This book encompasses all the knowhow of different biofuel production processes through biological methods. It describes recent advancements in all major biofuel technologies such as biohydrogen biomethane bioethanol syngas and so forth. Related protocols supported by schematic representation are included encompassing comprehensive up-to-date scientific and technological information in biofuels and bioenergy. Features: Includes practical approaches focused on process design and analysis in biofuel production via biological routes Discusses kinetic equations of different microbial systems Provides comprehensive coverage of biochemical kinetics and equations related to biofuel process Describes protocols for setting up of experiments for pertinent biofuel technologies Emphasis on practical engineering approaches and experiments This book is aimed at researchers and graduate students in chemical biochemical and bioprocess engineering and biofuels. | Biofuel Production Biological Technologies and Methodologies

GBP 90.00

1

Technologies for Value Addition in Food Products and Processes

The new volume looks at some important emerging food processing technologies in light of the demand for functional food products and high-value and nutritionally rich products. Technologies for Value Addition in Food Products and Processes covers a selection of important recent developments in food processing that work to enrich or maintain nutritional value of food products including such applications as non-thermal plasma refractance window drying extrusion enzyme immobilization and dry fractionation. Dry fractionation in particular has emerged as a sustainable alternative to wet processes in last three decades for producing protein concentrates from legumes. Several chapters on fish processing cover both traditional knowledge and advances in fish processing technologies. A chapter on bioethanol production discusses the past and present status of the industry focusing on economic feasibility and environmental viability. A chapter also discusses traditional fermentation process and nutritional aspects of ethnic foods followed by the Rabha-Hasong Mishing and Karbi communities of Assam India. With the contribution from experts in their respective fields this volume provides new information on novel food processing technologies.

GBP 131.00

1

Nanobiotechnology for Sustainable Bioenergy and Biofuel Production

Nanobiotechnology for Sustainable Bioenergy and Biofuel Production provides insights into the most recent innovations trends concerns and challenges in the production of biofuels. This book highlights a number of key research topics and practical applications of modern nanomaterials and nanocomposite-driven enzyme biotechnology for biofuels production including the advances in the nanoscaffolds design (nanomaterials support) for immobilizing bioenergy producing enzymes (nanobiocatalyst system) the recent trends in biomass processing (untreated/treated agriculture and food waste grasses algal etc.) using advanced nanobiocatalysts for biofuels production and the scale-up study of bioenergy production using nanomaterials immobilized enzymes and biofuel harvesting using nanomaterials. At the outset of new nanobiotechnology applications in biofuel production there is a need for a new resource in the bioenergy field. This book delivers an overview of the contributions of biofuel production and the most up-to-date advances in nanobiotechnology to a diverse audience ranging from post-graduate students to researchers in biochemical engineering biotechnology bioremediation and environmental studies and pharmaceutical professionals. Key Features • Outlines the most recent nanobiotechnological advances in biofuels and bioenergy for biofuels productions • Covers biodiesel bioethanol biomethane biohydrogen biorefineries and biofuel harvesting using nanomaterials • Explains the scale-up nanobiotechnological study of biofuel production at the bioreactor level

GBP 160.00

1

Brand

Merchant

Price (EUR)

Evaluation and Utilization of Bioethanol Fuels. I. Evaluation of Bioethanol Fuels Transport Engines and Bioethanol Sensors

Bioethanol Fuel Production Processes. II Biomass Hydrolysis Fermentation and Bioethanol Fuel Separation

Feedstock-based Bioethanol Fuels. I. Non-Waste Feedstocks Starch Sugar Grass Wood Cellulose Algae and Biosyngas-based Bioethanol Fuels

Bioethanol Fuel Production Processes. I Biomass Pretreatments

Evaluation and Utilization of Bioethanol Fuels. II. Biohydrogen Fuels Fuel Cells Biochemicals and Country Experiences

Bioethanol Biochemistry and Biotechnological Advances

Feedstock-based Bioethanol Fuels. II. Waste Feedstocks Agricultural Food Industrial Urban Forestry and Lignocellulosic Waste-based Bioe

Bioenergy and Biofuels

Biofuel Production Biological Technologies and Methodologies

Technologies for Value Addition in Food Products and Processes

Nanobiotechnology for Sustainable Bioenergy and Biofuel Production