Verfügbarkeit: Bioenergy : :: THWS Bibkatalog

Bioenergy :: prospects, applications and future directions /

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Bibliographische Detailangaben
Weitere Verfasser:	Castillo, Joanne (HerausgeberIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	New York: Nova Science Publishers, [2018]
Schriftenreihe:	Recent Trends in Biotechnology Series.
Schlagworte:	Biomass energy. Bioénergie. TECHNOLOGY & ENGINEERING > Chemical & Biochemical. Biomass energy
Online-Zugang:	Volltext
Beschreibung:	1 online resource.
Bibliographie:	Includes bibliographical references (pages 85-144) and index.
ISBN:	9781536140385 1536140384 1536140392 9781536140392

Internformat

MARC


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130	0		\|a Bioenergy (Nova Science Publishers)
245	1	0	\|a Bioenergy : \|b prospects, applications and future directions / \|c Joanne Castillo, editor.
264		1	\|a New York: \|b Nova Science Publishers, \|c [2018]
300			\|a 1 online resource.
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337			\|a computer \|b c \|2 rdamedia
338			\|a online resource \|b cr \|2 rdacarrier
490	1		\|a Recent Trends in Biotechnology Ser.
504			\|a Includes bibliographical references (pages 85-144) and index.
588			\|a Description based on print version record.
505	0		\|a Intro; Contents; Preface; Chapter 1; Biofuel Cells Based on Enzymes; Abstract; 1. Introduction; 2. Drawbacks in Developing Enzymatic Biofuel Cell; 3. Immobilization Methods for Biocathode; Conclusion; References; Chapter 2; Biomethane Production from Whey Treatment in an AnSBBR at Thermophilic Conditions; Abstract; 1. Introduction; 2. Experimental; 2.1. AnSBBR; 2.2. Wastewater; 2.3. Inoculum and Inert Support; 2.4. Physical-Chemical Analyses and Microbiological Tests; 2.5. Stability and Performance Indicators; 2.6. Kinetic Metabolic Model; 2.7. Energy Production; 2.8. Experimental Procedure
505	8		\|a 3. Results and Discussion3.1. Adaptation of the Biomass; 3.2. Optimization; 3.3. Feed Strategy; 3.4. Estimated Scale-up and Energy Production; 3.5. Microbiologic Test; 3.6. Comparison with Literature; Conclusion; Acknowledgments; References; Chapter 3; Algae-based CO2 Capture in Cold and Humid Climate Countries; Abstract; 1. Introduction; 2. Algae with High Oil Content; 3. Energetic Exploitation of Biomass Fuels; 4. Use of Vegetal Biomass for CO2 Capture, Biofuels and Bioenergy; 4.1. Biological Systems for Generating Biomass and Capturing Carbon; 4.2. Energy Balance of Algal Biofuel
505	8		\|a ConclusionReferences; Biographical Sketch; Chapter 4; Miscanthus for Bioenergy Farming in a Mediterranean Semiarid Environment (S Spain); Abstract; 1. Introduction; 2. Material and Methods; 2.1. Location and Experimental Design; 3. Results and Discussion; 3.1. Biomass Yield; 3.2. Effect of Irrigation on Biomass Yield; Conclusion; References; Bibliography; Related Nova Publications; The 2014 Farm Bill: Bioenergy Provisions and Issues; Bioenergy Systems, Biological Sources and Environmental Impact; Proteomics for Bioenergy Production from Corn Stover*
505	8		\|a Toxic Metal Phytoremediation Using High Biomass Non-Hyperaccumulator Crops: New Possibilities for Bioenergy ResourcesPhotobioreactors within the Framework of Circular Economy and Poverty Eradication: Bioenergy Production in the Ecuador-Peru Border Integration Zone; The Effects of Switchgrass-Derived Biochar on Bioenergy Crop Yield, Plant Composition, and Soil Properties; The Environmental Aspects of Bioenergy Production in Peru; Potential Uses of Cassava Bagasse for Bioenergy Generation by Pyrolysis and Copyrolysis with a Lignocellulosic Waste*
505	8		\|a Impact of Feedstock Supply Systems Unit Operations on Feedstock Cost and Quality for Bioenergy ApplicationsPotential Applications of Food Wastes to Bioenergy by Anaerobic Processes; Green Nanotechnology in Bioenergy; Perspective of Bioenergy Crop Jatropha curcas Improving Agriculture and Mitigation of Global Climate Change; Spent Coffee Ground Properties and Application in Bioenergy and Bioproducts; Improved Arid/Semi-Arid Ruminant Survival for Southern and Eastern Sub-Saharan Pastoralists: Biochar/High-Tannin Fodder, Bioenergy, and Carbon Sequestration
650		0	\|a Biomass energy. \|0 http://id.loc.gov/authorities/subjects/sh85014231
650		6	\|a Bioénergie.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Chemical & Biochemical. \|2 bisacsh
650		7	\|a Biomass energy \|2 fast
700	1		\|a Castillo, Joanne, \|e editor.
758			\|i has work: \|a Bioenergy (Work) \|1 https://id.oclc.org/worldcat/entity/E39PCXYw3hX4KtHggd9yMTBKFq \|4 https://id.oclc.org/worldcat/ontology/hasWork
776	0	8	\|i Print version: \|t Bioenergy \|d New York: Nova Science Publishers, [2018] \|z 9781536140385 \|w (DLC) 2018954920
830		0	\|a Recent Trends in Biotechnology Series.
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Datensatz im Suchindex

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contents	Intro; Contents; Preface; Chapter 1; Biofuel Cells Based on Enzymes; Abstract; 1. Introduction; 2. Drawbacks in Developing Enzymatic Biofuel Cell; 3. Immobilization Methods for Biocathode; Conclusion; References; Chapter 2; Biomethane Production from Whey Treatment in an AnSBBR at Thermophilic Conditions; Abstract; 1. Introduction; 2. Experimental; 2.1. AnSBBR; 2.2. Wastewater; 2.3. Inoculum and Inert Support; 2.4. Physical-Chemical Analyses and Microbiological Tests; 2.5. Stability and Performance Indicators; 2.6. Kinetic Metabolic Model; 2.7. Energy Production; 2.8. Experimental Procedure 3. Results and Discussion3.1. Adaptation of the Biomass; 3.2. Optimization; 3.3. Feed Strategy; 3.4. Estimated Scale-up and Energy Production; 3.5. Microbiologic Test; 3.6. Comparison with Literature; Conclusion; Acknowledgments; References; Chapter 3; Algae-based CO2 Capture in Cold and Humid Climate Countries; Abstract; 1. Introduction; 2. Algae with High Oil Content; 3. Energetic Exploitation of Biomass Fuels; 4. Use of Vegetal Biomass for CO2 Capture, Biofuels and Bioenergy; 4.1. Biological Systems for Generating Biomass and Capturing Carbon; 4.2. Energy Balance of Algal Biofuel ConclusionReferences; Biographical Sketch; Chapter 4; Miscanthus for Bioenergy Farming in a Mediterranean Semiarid Environment (S Spain); Abstract; 1. Introduction; 2. Material and Methods; 2.1. Location and Experimental Design; 3. Results and Discussion; 3.1. Biomass Yield; 3.2. Effect of Irrigation on Biomass Yield; Conclusion; References; Bibliography; Related Nova Publications; The 2014 Farm Bill: Bioenergy Provisions and Issues; Bioenergy Systems, Biological Sources and Environmental Impact; Proteomics for Bioenergy Production from Corn Stover* Toxic Metal Phytoremediation Using High Biomass Non-Hyperaccumulator Crops: New Possibilities for Bioenergy ResourcesPhotobioreactors within the Framework of Circular Economy and Poverty Eradication: Bioenergy Production in the Ecuador-Peru Border Integration Zone; The Effects of Switchgrass-Derived Biochar on Bioenergy Crop Yield, Plant Composition, and Soil Properties; The Environmental Aspects of Bioenergy Production in Peru; Potential Uses of Cassava Bagasse for Bioenergy Generation by Pyrolysis and Copyrolysis with a Lignocellulosic Waste* Impact of Feedstock Supply Systems Unit Operations on Feedstock Cost and Quality for Bioenergy ApplicationsPotential Applications of Food Wastes to Bioenergy by Anaerobic Processes; Green Nanotechnology in Bioenergy; Perspective of Bioenergy Crop Jatropha curcas Improving Agriculture and Mitigation of Global Climate Change; Spent Coffee Ground Properties and Application in Bioenergy and Bioproducts; Improved Arid/Semi-Arid Ruminant Survival for Southern and Eastern Sub-Saharan Pastoralists: Biochar/High-Tannin Fodder, Bioenergy, and Carbon Sequestration
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series2	Recent Trends in Biotechnology Ser.
spelling	Bioenergy (Nova Science Publishers) Bioenergy : prospects, applications and future directions / Joanne Castillo, editor. New York: Nova Science Publishers, [2018] 1 online resource. text txt rdacontent computer c rdamedia online resource cr rdacarrier Recent Trends in Biotechnology Ser. Includes bibliographical references (pages 85-144) and index. Description based on print version record. Intro; Contents; Preface; Chapter 1; Biofuel Cells Based on Enzymes; Abstract; 1. Introduction; 2. Drawbacks in Developing Enzymatic Biofuel Cell; 3. Immobilization Methods for Biocathode; Conclusion; References; Chapter 2; Biomethane Production from Whey Treatment in an AnSBBR at Thermophilic Conditions; Abstract; 1. Introduction; 2. Experimental; 2.1. AnSBBR; 2.2. Wastewater; 2.3. Inoculum and Inert Support; 2.4. Physical-Chemical Analyses and Microbiological Tests; 2.5. Stability and Performance Indicators; 2.6. Kinetic Metabolic Model; 2.7. Energy Production; 2.8. Experimental Procedure 3. Results and Discussion3.1. Adaptation of the Biomass; 3.2. Optimization; 3.3. Feed Strategy; 3.4. Estimated Scale-up and Energy Production; 3.5. Microbiologic Test; 3.6. Comparison with Literature; Conclusion; Acknowledgments; References; Chapter 3; Algae-based CO2 Capture in Cold and Humid Climate Countries; Abstract; 1. Introduction; 2. Algae with High Oil Content; 3. Energetic Exploitation of Biomass Fuels; 4. Use of Vegetal Biomass for CO2 Capture, Biofuels and Bioenergy; 4.1. Biological Systems for Generating Biomass and Capturing Carbon; 4.2. Energy Balance of Algal Biofuel ConclusionReferences; Biographical Sketch; Chapter 4; Miscanthus for Bioenergy Farming in a Mediterranean Semiarid Environment (S Spain); Abstract; 1. Introduction; 2. Material and Methods; 2.1. Location and Experimental Design; 3. Results and Discussion; 3.1. Biomass Yield; 3.2. Effect of Irrigation on Biomass Yield; Conclusion; References; Bibliography; Related Nova Publications; The 2014 Farm Bill: Bioenergy Provisions and Issues; Bioenergy Systems, Biological Sources and Environmental Impact; Proteomics for Bioenergy Production from Corn Stover* Toxic Metal Phytoremediation Using High Biomass Non-Hyperaccumulator Crops: New Possibilities for Bioenergy ResourcesPhotobioreactors within the Framework of Circular Economy and Poverty Eradication: Bioenergy Production in the Ecuador-Peru Border Integration Zone; The Effects of Switchgrass-Derived Biochar on Bioenergy Crop Yield, Plant Composition, and Soil Properties; The Environmental Aspects of Bioenergy Production in Peru; Potential Uses of Cassava Bagasse for Bioenergy Generation by Pyrolysis and Copyrolysis with a Lignocellulosic Waste* Impact of Feedstock Supply Systems Unit Operations on Feedstock Cost and Quality for Bioenergy ApplicationsPotential Applications of Food Wastes to Bioenergy by Anaerobic Processes; Green Nanotechnology in Bioenergy; Perspective of Bioenergy Crop Jatropha curcas Improving Agriculture and Mitigation of Global Climate Change; Spent Coffee Ground Properties and Application in Bioenergy and Bioproducts; Improved Arid/Semi-Arid Ruminant Survival for Southern and Eastern Sub-Saharan Pastoralists: Biochar/High-Tannin Fodder, Bioenergy, and Carbon Sequestration Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast Castillo, Joanne, editor. has work: Bioenergy (Work) https://id.oclc.org/worldcat/entity/E39PCXYw3hX4KtHggd9yMTBKFq https://id.oclc.org/worldcat/ontology/hasWork Print version: Bioenergy New York: Nova Science Publishers, [2018] 9781536140385 (DLC) 2018954920 Recent Trends in Biotechnology Series. FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1855276 Volltext
spellingShingle	Bioenergy : prospects, applications and future directions / Recent Trends in Biotechnology Series. Intro; Contents; Preface; Chapter 1; Biofuel Cells Based on Enzymes; Abstract; 1. Introduction; 2. Drawbacks in Developing Enzymatic Biofuel Cell; 3. Immobilization Methods for Biocathode; Conclusion; References; Chapter 2; Biomethane Production from Whey Treatment in an AnSBBR at Thermophilic Conditions; Abstract; 1. Introduction; 2. Experimental; 2.1. AnSBBR; 2.2. Wastewater; 2.3. Inoculum and Inert Support; 2.4. Physical-Chemical Analyses and Microbiological Tests; 2.5. Stability and Performance Indicators; 2.6. Kinetic Metabolic Model; 2.7. Energy Production; 2.8. Experimental Procedure 3. Results and Discussion3.1. Adaptation of the Biomass; 3.2. Optimization; 3.3. Feed Strategy; 3.4. Estimated Scale-up and Energy Production; 3.5. Microbiologic Test; 3.6. Comparison with Literature; Conclusion; Acknowledgments; References; Chapter 3; Algae-based CO2 Capture in Cold and Humid Climate Countries; Abstract; 1. Introduction; 2. Algae with High Oil Content; 3. Energetic Exploitation of Biomass Fuels; 4. Use of Vegetal Biomass for CO2 Capture, Biofuels and Bioenergy; 4.1. Biological Systems for Generating Biomass and Capturing Carbon; 4.2. Energy Balance of Algal Biofuel ConclusionReferences; Biographical Sketch; Chapter 4; Miscanthus for Bioenergy Farming in a Mediterranean Semiarid Environment (S Spain); Abstract; 1. Introduction; 2. Material and Methods; 2.1. Location and Experimental Design; 3. Results and Discussion; 3.1. Biomass Yield; 3.2. Effect of Irrigation on Biomass Yield; Conclusion; References; Bibliography; Related Nova Publications; The 2014 Farm Bill: Bioenergy Provisions and Issues; Bioenergy Systems, Biological Sources and Environmental Impact; Proteomics for Bioenergy Production from Corn Stover* Toxic Metal Phytoremediation Using High Biomass Non-Hyperaccumulator Crops: New Possibilities for Bioenergy ResourcesPhotobioreactors within the Framework of Circular Economy and Poverty Eradication: Bioenergy Production in the Ecuador-Peru Border Integration Zone; The Effects of Switchgrass-Derived Biochar on Bioenergy Crop Yield, Plant Composition, and Soil Properties; The Environmental Aspects of Bioenergy Production in Peru; Potential Uses of Cassava Bagasse for Bioenergy Generation by Pyrolysis and Copyrolysis with a Lignocellulosic Waste* Impact of Feedstock Supply Systems Unit Operations on Feedstock Cost and Quality for Bioenergy ApplicationsPotential Applications of Food Wastes to Bioenergy by Anaerobic Processes; Green Nanotechnology in Bioenergy; Perspective of Bioenergy Crop Jatropha curcas Improving Agriculture and Mitigation of Global Climate Change; Spent Coffee Ground Properties and Application in Bioenergy and Bioproducts; Improved Arid/Semi-Arid Ruminant Survival for Southern and Eastern Sub-Saharan Pastoralists: Biochar/High-Tannin Fodder, Bioenergy, and Carbon Sequestration Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85014231
title	Bioenergy : prospects, applications and future directions /
title_alt	Bioenergy (Nova Science Publishers)
title_auth	Bioenergy : prospects, applications and future directions /
title_exact_search	Bioenergy : prospects, applications and future directions /
title_full	Bioenergy : prospects, applications and future directions / Joanne Castillo, editor.
title_fullStr	Bioenergy : prospects, applications and future directions / Joanne Castillo, editor.
title_full_unstemmed	Bioenergy : prospects, applications and future directions / Joanne Castillo, editor.
title_short	Bioenergy :
title_sort	bioenergy prospects applications and future directions
title_sub	prospects, applications and future directions /
topic	Biomass energy. http://id.loc.gov/authorities/subjects/sh85014231 Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. bisacsh Biomass energy fast
topic_facet	Biomass energy. Bioénergie. TECHNOLOGY & ENGINEERING Chemical & Biochemical. Biomass energy
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=1855276
work_keys_str_mv	UT bioenergynovasciencepublishers AT castillojoanne bioenergyprospectsapplicationsandfuturedirections

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