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Anaerobic Biotechnology for Bioenergy Production - Samir Khanal
Vergriffenes Buch, derzeit bei uns nicht verfügbar.
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Samir Khanal:

Anaerobic Biotechnology for Bioenergy Production - neues Buch

ISBN: 9781119949428

ID: 9781119949428

Principles and Applications InhaltsangabeCONTRIBUTORS, xiPREFACE, xiii1 OVERVIEW OF ANAEROBIC BIOTECHNOLOGY, 1Samir Kumar Khanal1.1 Anaerobic Biotechnology and Bioenergy Recovery, 11.2 Historical Development, 31.3 Importance of Anaerobic Biotechnology in Overall Waste Treatment, 51.4 Definition and Principle of Anaerobic Processes, 61.5 Important Considerations in Anaerobic Biotechnology, 81.6 Merits of Anaerobic Biotechnology, 151.7 Limitations of Anaerobic Process, 22References, 252 MICROBIOLOGY AND BIOCHEMISTRY OF ANAEROBIC BIOTECHNOLOGY, 29Samir Kumar Khanal2.1 Background, 292.2 Organics Conversion in Anaerobic Systems, 292.3 Process Microbiology, 32References, 413 ENVIRONMENTAL FACTORS, 43Samir Kumar Khanal3.1 Background, 433.2 Temperature, 433.3 Operating pH and Alkalinity, 473.4 Nutrients, 553.5 Toxic Materials, 563.6 Redox Potential or Oxidation– Reduction Potential, 59References, 614 KINETICS AND MODELING IN ANAEROBIC PROCESSES, 65Keshab Raj Sharma4.1 Background, 654.2 Basic Elements, 664.3 Stepwise Approach to Modeling, 694.4 Modeling of pH Change, 794.5 Modeling of Energy Generation, 87References, 925 ANAEROBIC REACTOR CONFIGURATIONS FOR BIOENERGY PRODUCTION, 93Samir Kumar Khanal5.1 Background, 935.2 Strategies for Decoupling HRT and SRT, 935.3 Classification of Anaerobic Bioreactors, 945.4 Membrane Technology for Syngas Fermentation to Ethanol, 112References, 1146 MOLECULAR TECHNIQUES IN ANAEROBIC BIOTECHNOLOGY: APPLICATION IN BIOENERGY GENERATION, 115Srisuda Dhamwichukorn6.1 Background, 1156.2 Molecular Techniques in Anaerobic Biotechnology, 1156.3 Fundamentals of Molecular Techniques, 1166.4 Phylogenetic Analysis, 1176.5 Molecular Techniques for Microbial Community Structure Analysis: DNA Fingerprinting, Clone Library, and Fluorescent in Situ Hybridization, 1186.6 Molecular Techniques for Functional Analysis, 1216.7 Nucleic Acid Extraction of Anaerobic Cells/Isolates and Sludge, 1236.8 Molecular Techniques for Structure and Function Analysis, 1236.9 Postgenomic Approaches for Bioenergy Research, 128References, 1307 BIOENERGY RECOVERY FROM SULFATE-RICH WASTE STREAMS AND STRATEGIES FOR SULFIDE REMOVAL, 133Samir Kumar Khanal7.1 Background, 1337.2 Sulfate-Reducing Bacteria, 1337.3 High-Strength Sulfate-Rich Wastewater, 1357.4 Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1357.5 Important Considerations in Treatment and Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1377.6 Interactions between MPB and SRB, 1437.7 Sulfide Removal, 149References, 1578 BIOENERGY GENERATION FROM RESIDUES OF BIOFUEL INDUSTRIES, 161Samir Kumar Khanal8.1 Background, 1618.2 Bioethanol Feedstocks, 1628.3 Biodiesel Feedstocks, 1638.4 Ethanol Production, 1638.5 Thin Stillage Characterization, 1718.6 Cassava-Based Ethanol Production, 1838.7 Cellulose-Based Ethanol Production, 1858.8 Bioenergy Recovery from Crude Glycerin, 186References, 1879 BIOHYDROGEN PRODUCTION: FUNDAMENTALS, CHALLENGES, AND OPERATION STRATEGIES FOR ENHANCED YIELD, 189Samir Kumar Khanal9.1 Background, 18 Transfer Mechanisms, 22510.5 Evaluation of MFC Performance, 22810.6 MFC Designs and Electrode Materials, 23110.7 Operational Factors Affecting MFC Performance, 23910.8 Opportunities and Challenges for MFCs in WastewaterTreatment, 242References, 24311 PRETREATMENT OF HIGH-SOLIDS WASTES/RESIDUES TO ENHANCE BIOENERGY RECOVERY, 247Santha Harikishan11.1 Background, 24711.2 Efficiency of Sludge Pretreatment, 24811.3 Ultrasound Pretreatment, 25011.4 Chemical and Physical Pretreatment, 25711.5 Thermal Hydrolysis, 26111.6 Impact of Improved Digestibility on Overall ProcessEconomics, 264References, 26412 BIOGAS PROCESSING AND UTILIZATION AS AN ENERGY SOURCE, 267Santha Harikishan12.1 Background, 26712.2 Biogas Production, 26712.3 Factors Affecting Digester Gas Production, 26912.4 Biogas Composition, 27012.5 Biogas Impurities, 27212.6 Biogas Cleaning for Effective Utilization, 27412.7 Biogas Utilization, 27912.8 Future of Biogas as a Renewable Resource, 290References, 291INDEX, 293 Anaerobic Biotechnology for Bioenergy Production: InhaltsangabeCONTRIBUTORS, xiPREFACE, xiii1 OVERVIEW OF ANAEROBIC BIOTECHNOLOGY, 1Samir Kumar Khanal1.1 Anaerobic Biotechnology and Bioenergy Recovery, 11.2 Historical Development, 31.3 Importance of Anaerobic Biotechnology in Overall Waste Treatment, 51.4 Definition and Principle of Anaerobic Processes, 61.5 Important Considerations in Anaerobic Biotechnology, 81.6 Merits of Anaerobic Biotechnology, 151.7 Limitations of Anaerobic Process, 22References, 252 MICROBIOLOGY AND BIOCHEMISTRY OF ANAEROBIC BIOTECHNOLOGY, 29Samir Kumar Khanal2.1 Background, 292.2 Organics Conversion in Anaerobic Systems, 292.3 Process Microbiology, 32References, 413 ENVIRONMENTAL FACTORS, 43Samir Kumar Khanal3.1 Background, 433.2 Temperature, 433.3 Operating pH and Alkalinity, 473.4 Nutrients, 553.5 Toxic Materials, 563.6 Redox Potential or Oxidation– Reduction Potential, 59References, 614 KINETICS AND MODELING IN ANAEROBIC PROCESSES, 65Keshab Raj Sharma4.1 Background, 654.2 Basic Elements, 664.3 Stepwise Approach to Modeling, 694.4 Modeling of pH Change, 794.5 Modeling of Energy Generation, 87References, 925 ANAEROBIC REACTOR CONFIGURATIONS FOR BIOENERGY PRODUCTION, 93Samir Kumar Khanal5.1 Background, 935.2 Strategies for Decoupling HRT and SRT, 935.3 Classification of Anaerobic Bioreactors, 945.4 Membrane Technology for Syngas Fermentation to Ethanol, 112References, 1146 MOLECULAR TECHNIQUES IN ANAEROBIC BIOTECHNOLOGY: APPLICATION IN BIOENERGY GENERATION, 115Srisuda Dhamwichukorn6.1 Background, 1156.2 Molecular Techniques in Anaerobic Biotechnology, 1156.3 Fundamentals of Molecular Techniques, 1166.4 Phylogenetic Analysis, 1176.5 Molecular Techniques for Microbial Community Structure Analysis: DNA Fingerprinting, Clone Library, and Fluorescent in Situ Hybridization, 1186.6 Molecular Techniques for Functional Analysis, 1216.7 Nucleic Acid Extraction of Anaerobic Cells/Isolates and Sludge, 1236.8 Molecular Techniques for Structure and Function Analysis, 1236.9 Postgenomic Approaches for Bioenergy Research, 128References, 1307 BIOENERGY RECOVERY FROM SULFATE-RICH WASTE STREAMS AND STRATEGIES FOR SULFIDE REMOVAL, 133Samir Kumar Khanal7.1 Background, 1337.2 Sulfate-Reducing Bacteria, 1337.3 High-Strength Sulfate-Rich Wastewater, 1357.4 Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1357.5 Important Considerations in Treatment and Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1377.6 Interactions between MPB and SRB, 1437.7 Sulfide Removal, 149References, 1578 BIOENERGY GENERATION FROM RESIDUES OF BIOFUEL INDUSTRIES, 161Samir Kumar Khanal8.1 Background, 1618.2 Bioethanol Feedstocks, 1628.3 Biodiesel Feedstocks, 1638.4 Ethanol Production, 1638.5 Thin Stillage Characterization, 1718.6 Cassava-Based Ethanol Production, 1838.7 Cellulose-Based Ethanol Production, 1858.8 Bioenergy Recovery from Crude Glycerin, 186References, 1879 BIOHYDROGEN PRODUCTION: FUNDAMENTALS, CHALLENGES, AND OPERATION STRATEGIES FOR ENHANCED YIELD, 189Samir Kumar Khanal9.1 Background, 18 Transfer Mechanisms, 22510.5 Evaluation of MFC Performance, 22810.6 MFC Designs and Electrode Materials, 23110.7 Operational Factors Affecting MFC Performance, 23910.8 Opportunities and Challenges for MFCs in WastewaterTreatment, 242References, 24311 PRETREATMENT OF HIGH-SOLIDS WASTES/RESIDUES TO ENHANCE BIOENERGY RECOVERY, 247Santha Harikishan11.1 Background, 24711.2 Efficiency of Sludge Pretreatment, 24811.3 Ultrasound Pretreatment, 25011.4 Chemical and Physical Pretreatment, 25711.5 Thermal Hydrolysis, 26111.6 Impact of Improved Digestibility on Overall ProcessEconomics, 264References, 26412 BIOGAS PROCESSING AND UTILIZATION AS AN ENERGY SOURCE, 267Santha Harikishan12.1 Background, 26712.2 Biogas Production, 26712.3 Factors Affecting Digester Gas Production, 26912.4 Biogas Composition, 27012.5 Biogas Impurities, 27212.6 Biogas Cleaning for Effective Utilization, 27412.7 Biogas Utilization, 27912.8 Future of Biogas as a Renewable Resource, 290References, 291INDEX, 293 Agriculture Biotechnologie Biowissenschaften Chemical Engineering Chemische Verfahrenstechnik Landwirtschaft Life Sciences Microbiology & Virology Mikrobiologie Mikrobiologie u. Virologie Natural Resources Natürliche Ressourcen, John Wiley & Sons

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Anaerobic Biotechnology for Bioenergy Production - Samir Khanal
Vergriffenes Buch, derzeit bei uns nicht verfügbar.
(*)

Samir Khanal:

Anaerobic Biotechnology for Bioenergy Production - neues Buch

ISBN: 9781119949428

ID: 9781119949428

Principles and Applications InhaltsangabeCONTRIBUTORS, xiPREFACE, xiii1 OVERVIEW OF ANAEROBIC BIOTECHNOLOGY, 1Samir Kumar Khanal1.1 Anaerobic Biotechnology and Bioenergy Recovery, 11.2 Historical Development, 31.3 Importance of Anaerobic Biotechnology in Overall Waste Treatment, 51.4 Definition and Principle of Anaerobic Processes, 61.5 Important Considerations in Anaerobic Biotechnology, 81.6 Merits of Anaerobic Biotechnology, 151.7 Limitations of Anaerobic Process, 22References, 252 MICROBIOLOGY AND BIOCHEMISTRY OF ANAEROBIC BIOTECHNOLOGY, 29Samir Kumar Khanal2.1 Background, 292.2 Organics Conversion in Anaerobic Systems, 292.3 Process Microbiology, 32References, 413 ENVIRONMENTAL FACTORS, 43Samir Kumar Khanal3.1 Background, 433.2 Temperature, 433.3 Operating pH and Alkalinity, 473.4 Nutrients, 553.5 Toxic Materials, 563.6 Redox Potential or Oxidation– Reduction Potential, 59References, 614 KINETICS AND MODELING IN ANAEROBIC PROCESSES, 65Keshab Raj Sharma4.1 Background, 654.2 Basic Elements, 664.3 Stepwise Approach to Modeling, 694.4 Modeling of pH Change, 794.5 Modeling of Energy Generation, 87References, 925 ANAEROBIC REACTOR CONFIGURATIONS FOR BIOENERGY PRODUCTION, 93Samir Kumar Khanal5.1 Background, 935.2 Strategies for Decoupling HRT and SRT, 935.3 Classification of Anaerobic Bioreactors, 945.4 Membrane Technology for Syngas Fermentation to Ethanol, 112References, 1146 MOLECULAR TECHNIQUES IN ANAEROBIC BIOTECHNOLOGY: APPLICATION IN BIOENERGY GENERATION, 115Srisuda Dhamwichukorn6.1 Background, 1156.2 Molecular Techniques in Anaerobic Biotechnology, 1156.3 Fundamentals of Molecular Techniques, 1166.4 Phylogenetic Analysis, 1176.5 Molecular Techniques for Microbial Community Structure Analysis: DNA Fingerprinting, Clone Library, and Fluorescent in Situ Hybridization, 1186.6 Molecular Techniques for Functional Analysis, 1216.7 Nucleic Acid Extraction of Anaerobic Cells/Isolates and Sludge, 1236.8 Molecular Techniques for Structure and Function Analysis, 1236.9 Postgenomic Approaches for Bioenergy Research, 128References, 1307 BIOENERGY RECOVERY FROM SULFATE-RICH WASTE STREAMS AND STRATEGIES FOR SULFIDE REMOVAL, 133Samir Kumar Khanal7.1 Background, 1337.2 Sulfate-Reducing Bacteria, 1337.3 High-Strength Sulfate-Rich Wastewater, 1357.4 Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1357.5 Important Considerations in Treatment and Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1377.6 Interactions between MPB and SRB, 1437.7 Sulfide Removal, 149References, 1578 BIOENERGY GENERATION FROM RESIDUES OF BIOFUEL INDUSTRIES, 161Samir Kumar Khanal8.1 Background, 1618.2 Bioethanol Feedstocks, 1628.3 Biodiesel Feedstocks, 1638.4 Ethanol Production, 1638.5 Thin Stillage Characterization, 1718.6 Cassava-Based Ethanol Production, 1838.7 Cellulose-Based Ethanol Production, 1858.8 Bioenergy Recovery from Crude Glycerin, 186References, 1879 BIOHYDROGEN PRODUCTION: FUNDAMENTALS, CHALLENGES, AND OPERATION STRATEGIES FOR ENHANCED YIELD, 189Samir Kumar Khanal9.1 Background, 18 Transfer Mechanisms, 22510.5 Evaluation of MFC Performance, 22810.6 MFC Designs and Electrode Materials, 23110.7 Operational Factors Affecting MFC Performance, 23910.8 Opportunities and Challenges for MFCs in WastewaterTreatment, 242References, 24311 PRETREATMENT OF HIGH-SOLIDS WASTES/RESIDUES TO ENHANCE BIOENERGY RECOVERY, 247Santha Harikishan11.1 Background, 24711.2 Efficiency of Sludge Pretreatment, 24811.3 Ultrasound Pretreatment, 25011.4 Chemical and Physical Pretreatment, 25711.5 Thermal Hydrolysis, 26111.6 Impact of Improved Digestibility on Overall ProcessEconomics, 264References, 26412 BIOGAS PROCESSING AND UTILIZATION AS AN ENERGY SOURCE, 267Santha Harikishan12.1 Background, 26712.2 Biogas Production, 26712.3 Factors Affecting Digester Gas Production, 26912.4 Biogas Composition, 27012.5 Biogas Impurities, 27212.6 Biogas Cleaning for Effective Utilization, 27412.7 Biogas Utilization, 27912.8 Future of Biogas as a Renewable Resource, 290References, 291INDEX, 293 Anaerobic Biotechnology for Bioenergy Production: InhaltsangabeCONTRIBUTORS, xiPREFACE, xiii1 OVERVIEW OF ANAEROBIC BIOTECHNOLOGY, 1Samir Kumar Khanal1.1 Anaerobic Biotechnology and Bioenergy Recovery, 11.2 Historical Development, 31.3 Importance of Anaerobic Biotechnology in Overall Waste Treatment, 51.4 Definition and Principle of Anaerobic Processes, 61.5 Important Considerations in Anaerobic Biotechnology, 81.6 Merits of Anaerobic Biotechnology, 151.7 Limitations of Anaerobic Process, 22References, 252 MICROBIOLOGY AND BIOCHEMISTRY OF ANAEROBIC BIOTECHNOLOGY, 29Samir Kumar Khanal2.1 Background, 292.2 Organics Conversion in Anaerobic Systems, 292.3 Process Microbiology, 32References, 413 ENVIRONMENTAL FACTORS, 43Samir Kumar Khanal3.1 Background, 433.2 Temperature, 433.3 Operating pH and Alkalinity, 473.4 Nutrients, 553.5 Toxic Materials, 563.6 Redox Potential or Oxidation– Reduction Potential, 59References, 614 KINETICS AND MODELING IN ANAEROBIC PROCESSES, 65Keshab Raj Sharma4.1 Background, 654.2 Basic Elements, 664.3 Stepwise Approach to Modeling, 694.4 Modeling of pH Change, 794.5 Modeling of Energy Generation, 87References, 925 ANAEROBIC REACTOR CONFIGURATIONS FOR BIOENERGY PRODUCTION, 93Samir Kumar Khanal5.1 Background, 935.2 Strategies for Decoupling HRT and SRT, 935.3 Classification of Anaerobic Bioreactors, 945.4 Membrane Technology for Syngas Fermentation to Ethanol, 112References, 1146 MOLECULAR TECHNIQUES IN ANAEROBIC BIOTECHNOLOGY: APPLICATION IN BIOENERGY GENERATION, 115Srisuda Dhamwichukorn6.1 Background, 1156.2 Molecular Techniques in Anaerobic Biotechnology, 1156.3 Fundamentals of Molecular Techniques, 1166.4 Phylogenetic Analysis, 1176.5 Molecular Techniques for Microbial Community Structure Analysis: DNA Fingerprinting, Clone Library, and Fluorescent in Situ Hybridization, 1186.6 Molecular Techniques for Functional Analysis, 1216.7 Nucleic Acid Extraction of Anaerobic Cells/Isolates and Sludge, 1236.8 Molecular Techniques for Structure and Function Analysis, 1236.9 Postgenomic Approaches for Bioenergy Research, 128References, 1307 BIOENERGY RECOVERY FROM SULFATE-RICH WASTE STREAMS AND STRATEGIES FOR SULFIDE REMOVAL, 133Samir Kumar Khanal7.1 Background, 1337.2 Sulfate-Reducing Bacteria, 1337.3 High-Strength Sulfate-Rich Wastewater, 1357.4 Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1357.5 Important Considerations in Treatment and Methane Recovery from High-Strength Sulfate-Laden Wastewater, 1377.6 Interactions between MPB and SRB, 1437.7 Sulfide Removal, 149References, 1578 BIOENERGY GENERATION FROM RESIDUES OF BIOFUEL INDUSTRIES, 161Samir Kumar Khanal8.1 Background, 1618.2 Bioethanol Feedstocks, 1628.3 Biodiesel Feedstocks, 1638.4 Ethanol Production, 1638.5 Thin Stillage Characterization, 1718.6 Cassava-Based Ethanol Production, 1838.7 Cellulose-Based Ethanol Production, 1858.8 Bioenergy Recovery from Crude Glycerin, 186References, 1879 BIOHYDROGEN PRODUCTION: FUNDAMENTALS, CHALLENGES, AND OPERATION STRATEGIES FOR ENHANCED YIELD, 189Samir Kumar Khanal9.1 Background, 18 Transfer Mechanisms, 22510.5 Evaluation of MFC Performance, 22810.6 MFC Designs and Electrode Materials, 23110.7 Operational Factors Affecting MFC Performance, 23910.8 Opportunities and Challenges for MFCs in WastewaterTreatment, 242References, 24311 PRETREATMENT OF HIGH-SOLIDS WASTES/RESIDUES TO ENHANCE BIOENERGY RECOVERY, 247Santha Harikishan11.1 Background, 24711.2 Efficiency of Sludge Pretreatment, 24811.3 Ultrasound Pretreatment, 25011.4 Chemical and Physical Pretreatment, 25711.5 Thermal Hydrolysis, 26111.6 Impact of Improved Digestibility on Overall ProcessEconomics, 264References, 26412 BIOGAS PROCESSING AND UTILIZATION AS AN ENERGY SOURCE, 267Santha Harikishan12.1 Background, 26712.2 Biogas Production, 26712.3 Factors Affecting Digester Gas Production, 26912.4 Biogas Composition, 27012.5 Biogas Impurities, 27212.6 Biogas Cleaning for Effective Utilization, 27412.7 Biogas Utilization, 27912.8 Future of Biogas as a Renewable Resource, 290References, 291INDEX, 293 Natural Resources Mikrobiologie Chemische Verfahrenstechnik Natürliche Ressourcen Mikrobiologie u. Virologie Biotechnologie Agriculture Microbiology & Virology Chemical Engineering Landwirtschaft Life Sciences Biowissenschaften, John Wiley & Sons

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Anaerobic Biotechnology for Bioenergy Production: Principles and Applications - Samir Khanal
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Anaerobic Biotechnology for Bioenergy Production: Principles and Applications - gebrauchtes Buch

ISBN: 9781119949428

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Anaerobic biotechnology is a cost-effective and sustainable means of treating waste and wastewaters that couples treatment processes with the reclamation of useful by-products and renewable biofuels. This means of treating municipal, agricultural, and industrial wastes allows waste products to be converted to value-added products such as biofuels, biofertilizers, and other chemicals. Anaerobic Biotechnology for Bioenergy Production: Principles and Applications provides the reader Anaerobic biotechnology is a cost-effective and sustainable means of treating waste and wastewaters that couples treatment processes with the reclamation of useful by-products and renewable biofuels. This means of treating municipal, agricultural, and industrial wastes allows waste products to be converted to value-added products such as biofuels, biofertilizers, and other chemicals. Anaerobic Biotechnology for Bioenergy Production: Principles and Applications provides the reader with basic principles of anaerobic processes alongside practical uses of anaerobic biotechnology options. This book will be a valuable reference to any professional currently considering or working with anaerobic biotechnology options. EBooks, Books~~Technology~~Chemical & Biochemical, Anaerobic-Biotechnology-for-Bioenergy-Production~~Samir-Khanal, 999999999, Anaerobic Biotechnology for Bioenergy Production: Principles and Applications, Samir Khanal, 1119949424, Wiley, , , , , Wiley

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Anaerobic Biotechnology for Bioenergy Production - Samir Khanal
Vergriffenes Buch, derzeit bei uns nicht verfügbar.
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Samir Khanal:
Anaerobic Biotechnology for Bioenergy Production - neues Buch

2011, ISBN: 9781119949428

ID: 590069087

Anaerobic biotechnology is a cost-effective and sustainable means of treating waste and wastewaters that couples treatment processes with the reclamation of useful by-products and renewable biofuels. This means of treating municipal, agricultural, and industrial wastes allows waste products to be converted to value-added products such as biofuels, biofertilizers, and other chemicals. Anaerobic Biotechnology for Bioenergy Production: Principles and Applications provides the reader with basic principles of anaerobic processes alongside practical uses of anaerobic biotechnology options. This book will be a valuable reference to any professional currently considering or working with anaerobic biotechnology options., 2011

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Anaerobic Biotechnology for Bioenergy Production - Samir Khanal
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Samir Khanal:
Anaerobic Biotechnology for Bioenergy Production - neues Buch

ISBN: 9781119949428

ID: 9781119949428

Principles and Applications InhaltsangabeCONTRIBUTORS, xiPREFACE, xiii1 OVERVIEW OF ANAEROBIC BIOTECHNOLOGY, 1, John Wiley & Sons

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Anaerobic Biotechnology for Bioenergy Production
Autor:

Khanal, Samir

Titel:

Anaerobic Biotechnology for Bioenergy Production

ISBN-Nummer:

9781119949428

Detailangaben zum Buch - Anaerobic Biotechnology for Bioenergy Production


EAN (ISBN-13): 9781119949428
ISBN (ISBN-10): 1119949424
Erscheinungsjahr: 2009
Herausgeber: Wiley, J
Sprache: eng/Englisch

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Buch zuletzt gefunden am 02.07.2016 14:33:55
ISBN/EAN: 9781119949428

ISBN - alternative Schreibweisen:
1-119-94942-4, 978-1-119-94942-8

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