Biomass Preprocessing and Pretreatments for Production of Biofuels: Mechanical, Chemical and Thermal Methods
Engineering the physical, chemical, and energy properties of lignocellulosic biomass is important to produce high-quality consistent feedstocks with reduced variability for biofuels production. The emphasis of this book will be the beneficial impacts that mechanical, chemical, and thermal preprocess...
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| description | Engineering the physical, chemical, and energy properties of lignocellulosic biomass is important to produce high-quality consistent feedstocks with reduced variability for biofuels production. The emphasis of this book will be the beneficial impacts that mechanical, chemical, and thermal preprocessing methods can have on lignocellulosic biomass quality attributes or specifications for solid and liquid biofuels and biopower production technologies. "Preprocessing" refers to treatments that can occur at a distance from conversion and result in an intermediate with added value, with improved conversion performance and efficiency.
This book explores the effects of mechanical, chemical, and thermal preprocessing methods on lignocellulosic biomass physical properties and chemical composition and their suitability for biofuels production. For example, biomass mechanical preprocessing methods like size reduction (which impacts the particle size and distribution) and densification (density and size and shape) are important for feedstocks to meet the quality requirements for both biochemical and thermochemical conversion methods like enzymatic conversion, gasification, and pyrolysis process. Thermal preprocessing methods like drying, deep drying, torrefaction, steam explosion, hydrothermal carbonization, and hydrothermal liquefaction effect feedstock's proximate, ultimate and energy property, making biomass suitable for both solid and liquid fuel production. Chemical preprocessing which includes washing, leaching, acid, alkali, and ammonia fiber explosion that can enable biochemical composition, such as modification of lignin and hemicellulose, and impacts the enzymatic conversion application for liquid fuels production. This book also explores the integration of these preprocessing technologies to achieve desired lignocellulosic biomass quality attributes for biofuels production.
Table of contents
Introduction
Jaya Shankar Tumuluru
MECHANICAL PREPROCESSING
Conventional and Advanced Mechanical Preprocessing Methods for Biomass: Performance- Quality Attributes and Cost Analysis
Jaya Shankar Tumuluru, and Neal Yancey
Effects of Mechanical Preprocessing Technologies on Gasification Performance and Economic Value of Syngas
Amit Khanchi, Bhavna Sharma, Ashok Kumar Sharma, Ajay Kumar, Jaya Shankar Tumuluru, and Stuart Birrell
Mechanical Fractionation of Biomass Feedstocks for Enhanced Pretreatment and Conversion
Jeffery A. Lacey
Biomass Gasification and Effect of Physica |
| doi_str_mv | 10.1201/9781315153735 |
| format | Book |
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This book explores the effects of mechanical, chemical, and thermal preprocessing methods on lignocellulosic biomass physical properties and chemical composition and their suitability for biofuels production. For example, biomass mechanical preprocessing methods like size reduction (which impacts the particle size and distribution) and densification (density and size and shape) are important for feedstocks to meet the quality requirements for both biochemical and thermochemical conversion methods like enzymatic conversion, gasification, and pyrolysis process. Thermal preprocessing methods like drying, deep drying, torrefaction, steam explosion, hydrothermal carbonization, and hydrothermal liquefaction effect feedstock's proximate, ultimate and energy property, making biomass suitable for both solid and liquid fuel production. Chemical preprocessing which includes washing, leaching, acid, alkali, and ammonia fiber explosion that can enable biochemical composition, such as modification of lignin and hemicellulose, and impacts the enzymatic conversion application for liquid fuels production. This book also explores the integration of these preprocessing technologies to achieve desired lignocellulosic biomass quality attributes for biofuels production.
Table of contents
Introduction
Jaya Shankar Tumuluru
MECHANICAL PREPROCESSING
Conventional and Advanced Mechanical Preprocessing Methods for Biomass: Performance- Quality Attributes and Cost Analysis
Jaya Shankar Tumuluru, and Neal Yancey
Effects of Mechanical Preprocessing Technologies on Gasification Performance and Economic Value of Syngas
Amit Khanchi, Bhavna Sharma, Ashok Kumar Sharma, Ajay Kumar, Jaya Shankar Tumuluru, and Stuart Birrell
Mechanical Fractionation of Biomass Feedstocks for Enhanced Pretreatment and Conversion
Jeffery A. Lacey
Biomass Gasification and Effect of Physical Properties on Products
Sushil Adhikari, Hyungseok Nam, and Avanti Kulkarni
The impacts of biomass pretreatment methods on bio-oil production
Yang Yue, and Sudhagar Mani
THERMAL PREPROCESSING
Steam Treatment of Cellulosic Biomass for Pelletization
Shahab Sokhansanj, Hamid Rezaei, Pak Sui (Wilson) Lam, Tang Yong, Bahman Ghiasi, and Zahra Tooyserkani
Hydrothermal Carbonization (HTC) of Biomass for Energy Applications
S. Kent Hoekman, Amber Broch, and Larry Felix
9. Thermal Pretreatment of Biomass to make it Suitable for Biopower Application
Jaya Shankar Tumuluru
10. The Impacts of Thermal Pretreatments on Biomass Gasification and Pyrolysis Processes
Ajay Kumar, and Zixu Yang
11. Hydrothermal Liquefaction – A Promising Technology for High Moisture Biomass Conversion
Ankita Juneja, Deepak Kumar, and Jaya Shankar Tumuluru
CHEMICAL PREPROCESSING
12. Chemical Preprocessing of Feedstocks for Improved Handling and Conversion to BioFuels
John Erl Aston
Ammonia fiber expansion and its impact on subsequent densification and enzymatic conversion
Bryn D Bals and Timothy J Campbell
Acid Preprocessing Treatments: Benefit for Bioconversion of Biomass for Liquid Fuels and Bioproduct Production
Nick Nagle, and Erik Kuhn
Impacts, Challenges and Economics of Ionic Liquid Pretreatment of Biomass
Ning Sun, Jipeng Yan, Ling Liang, and Todd R. Pray
Compositional and Structural Modification of Lignocellulosic Biomass for Biofuel Production by Alkaline Treatment
Kingsley L. Iroba, Majid Soleimani, and Lope G. Tabil
Dr. Jaya Shankar Tumuluru is a senior scientist in the Biofuels Department at the Idaho National Laboratory. He is the principal investigator for the Biomass Size Reduction, Drying, and Densification project supported by the Bioenergy Technologies Office at the U.S. Department of Energy. At INL his research is focused on mechanical and thermal preprocessing and pretreatments of biomass. Dr. Tumuluru has also worked on understanding the storage behavior of woody, and herbaceous biomass, biomass drying, food processing using extrusion cooking, shelf-stable food products, food storage, and process modeling and optimization. He has acted as a reviewer for many high impact factor journals in bioenergy and food processing. He has also reviewed the proposal for national, international grant agencies. He has published more than 100 papers in the peer-reviewed journals, book chapters, conference proceedings and has presented more than 80 papers in national and international conferences. He has received numerous awards, such as outstanding reviewer for American Society of Agricultural and Biological Engineers, and INL’s Outstanding Achievement in Scientific and Technical Publication, Asian American Engineer of the Year Award for 2018 and R & D 100 award finalist for the year 2018. Dr. Jaya Shankar Tumuluru did his Ph.D. in Agricultural and Food Engineering, from Indian Institute of Technology, Kharagpur, India.</description><edition>1</edition><identifier>ISBN: 9781498765480</identifier><identifier>ISBN: 1498765483</identifier><identifier>ISBN: 9781498765473</identifier><identifier>ISBN: 1498765475</identifier><identifier>ISBN: 036778100X</identifier><identifier>ISBN: 9780367781002</identifier><identifier>EISBN: 9781315153735</identifier><identifier>EISBN: 1315153734</identifier><identifier>EISBN: 9781498765480</identifier><identifier>EISBN: 1498765483</identifier><identifier>EISBN: 1351649779</identifier><identifier>EISBN: 9781351649773</identifier><identifier>DOI: 10.1201/9781315153735</identifier><identifier>OCLC: 1047933070</identifier><language>eng</language><publisher>United States: CRC Press</publisher><subject>Ajay Kumar ; Amber Leland ; Amit Khanchi ; Ankita Juneja ; Ashokkumar Sharma ; Avanti Kulkarni ; Bahman Ghiasi ; Bhavna Sharma ; Bio Energy ; biomass chemical pretreatments ; Biomass energy ; biomass thermal pretreatments ; Biotechnology ; Bryan D. Bals ; Chemical and related technologies ; Chemical processes ; CHEMICALENGINEERINGnetBASE ; CHEMLIBnetBASE ; co-firing, cofiring ; Deepak Kumar ; ENERGYANDCLEANTECHnetBASE ; enzymatic conversions ; Erik Kuhn ; gasification, mechanical separation, densification, thermochemical conversions, biochemical conversions, torrefaction, hydothermal carbonization ; Hamid Rezaei ; Hyungseok Nam ; Jaya Shankar Tumuluru ; Jeffrey A. Lacey ; Jipeng Yan ; John Earl Aston ; Kingsley L. Iroba ; Larry Felix ; Ling Liang ; Lope G. Tabil ; Majid Soleimani ; Neal Yancey ; Nick Nagle ; Ning Sun ; Power & Energy ; SCI-TECHnetBASE ; STMnetBASE</subject><creationdate>2018</creationdate><tpages>12</tpages><tpages>470</tpages><tpages>458</tpages><format>12</format><rights>2018 by Taylor & Francis Group, LLC CRC Press is an imprint of Taylor & Francis Group, an Informa business</rights><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>306,776,780,782,27902</link.rule.ids></links><search><contributor>Tumuluru, Jaya Shankar</contributor><contributor>Tumuluru, Jaya Shankar</contributor><creatorcontrib>Tumuluru, Jaya Shankar</creatorcontrib><title>Biomass Preprocessing and Pretreatments for Production of Biofuels: Mechanical, Chemical and Thermal Methods</title><description>Engineering the physical, chemical, and energy properties of lignocellulosic biomass is important to produce high-quality consistent feedstocks with reduced variability for biofuels production. The emphasis of this book will be the beneficial impacts that mechanical, chemical, and thermal preprocessing methods can have on lignocellulosic biomass quality attributes or specifications for solid and liquid biofuels and biopower production technologies. "Preprocessing" refers to treatments that can occur at a distance from conversion and result in an intermediate with added value, with improved conversion performance and efficiency.
This book explores the effects of mechanical, chemical, and thermal preprocessing methods on lignocellulosic biomass physical properties and chemical composition and their suitability for biofuels production. For example, biomass mechanical preprocessing methods like size reduction (which impacts the particle size and distribution) and densification (density and size and shape) are important for feedstocks to meet the quality requirements for both biochemical and thermochemical conversion methods like enzymatic conversion, gasification, and pyrolysis process. Thermal preprocessing methods like drying, deep drying, torrefaction, steam explosion, hydrothermal carbonization, and hydrothermal liquefaction effect feedstock's proximate, ultimate and energy property, making biomass suitable for both solid and liquid fuel production. Chemical preprocessing which includes washing, leaching, acid, alkali, and ammonia fiber explosion that can enable biochemical composition, such as modification of lignin and hemicellulose, and impacts the enzymatic conversion application for liquid fuels production. This book also explores the integration of these preprocessing technologies to achieve desired lignocellulosic biomass quality attributes for biofuels production.
Table of contents
Introduction
Jaya Shankar Tumuluru
MECHANICAL PREPROCESSING
Conventional and Advanced Mechanical Preprocessing Methods for Biomass: Performance- Quality Attributes and Cost Analysis
Jaya Shankar Tumuluru, and Neal Yancey
Effects of Mechanical Preprocessing Technologies on Gasification Performance and Economic Value of Syngas
Amit Khanchi, Bhavna Sharma, Ashok Kumar Sharma, Ajay Kumar, Jaya Shankar Tumuluru, and Stuart Birrell
Mechanical Fractionation of Biomass Feedstocks for Enhanced Pretreatment and Conversion
Jeffery A. Lacey
Biomass Gasification and Effect of Physical Properties on Products
Sushil Adhikari, Hyungseok Nam, and Avanti Kulkarni
The impacts of biomass pretreatment methods on bio-oil production
Yang Yue, and Sudhagar Mani
THERMAL PREPROCESSING
Steam Treatment of Cellulosic Biomass for Pelletization
Shahab Sokhansanj, Hamid Rezaei, Pak Sui (Wilson) Lam, Tang Yong, Bahman Ghiasi, and Zahra Tooyserkani
Hydrothermal Carbonization (HTC) of Biomass for Energy Applications
S. Kent Hoekman, Amber Broch, and Larry Felix
9. Thermal Pretreatment of Biomass to make it Suitable for Biopower Application
Jaya Shankar Tumuluru
10. The Impacts of Thermal Pretreatments on Biomass Gasification and Pyrolysis Processes
Ajay Kumar, and Zixu Yang
11. Hydrothermal Liquefaction – A Promising Technology for High Moisture Biomass Conversion
Ankita Juneja, Deepak Kumar, and Jaya Shankar Tumuluru
CHEMICAL PREPROCESSING
12. Chemical Preprocessing of Feedstocks for Improved Handling and Conversion to BioFuels
John Erl Aston
Ammonia fiber expansion and its impact on subsequent densification and enzymatic conversion
Bryn D Bals and Timothy J Campbell
Acid Preprocessing Treatments: Benefit for Bioconversion of Biomass for Liquid Fuels and Bioproduct Production
Nick Nagle, and Erik Kuhn
Impacts, Challenges and Economics of Ionic Liquid Pretreatment of Biomass
Ning Sun, Jipeng Yan, Ling Liang, and Todd R. Pray
Compositional and Structural Modification of Lignocellulosic Biomass for Biofuel Production by Alkaline Treatment
Kingsley L. Iroba, Majid Soleimani, and Lope G. Tabil
Dr. Jaya Shankar Tumuluru is a senior scientist in the Biofuels Department at the Idaho National Laboratory. He is the principal investigator for the Biomass Size Reduction, Drying, and Densification project supported by the Bioenergy Technologies Office at the U.S. Department of Energy. At INL his research is focused on mechanical and thermal preprocessing and pretreatments of biomass. Dr. Tumuluru has also worked on understanding the storage behavior of woody, and herbaceous biomass, biomass drying, food processing using extrusion cooking, shelf-stable food products, food storage, and process modeling and optimization. He has acted as a reviewer for many high impact factor journals in bioenergy and food processing. He has also reviewed the proposal for national, international grant agencies. He has published more than 100 papers in the peer-reviewed journals, book chapters, conference proceedings and has presented more than 80 papers in national and international conferences. He has received numerous awards, such as outstanding reviewer for American Society of Agricultural and Biological Engineers, and INL’s Outstanding Achievement in Scientific and Technical Publication, Asian American Engineer of the Year Award for 2018 and R & D 100 award finalist for the year 2018. Dr. Jaya Shankar Tumuluru did his Ph.D. in Agricultural and Food Engineering, from Indian Institute of Technology, Kharagpur, India.</description><subject>Ajay Kumar</subject><subject>Amber Leland</subject><subject>Amit Khanchi</subject><subject>Ankita Juneja</subject><subject>Ashokkumar Sharma</subject><subject>Avanti Kulkarni</subject><subject>Bahman Ghiasi</subject><subject>Bhavna Sharma</subject><subject>Bio Energy</subject><subject>biomass chemical pretreatments</subject><subject>Biomass energy</subject><subject>biomass thermal pretreatments</subject><subject>Biotechnology</subject><subject>Bryan D. Bals</subject><subject>Chemical and related technologies</subject><subject>Chemical processes</subject><subject>CHEMICALENGINEERINGnetBASE</subject><subject>CHEMLIBnetBASE</subject><subject>co-firing, cofiring</subject><subject>Deepak Kumar</subject><subject>ENERGYANDCLEANTECHnetBASE</subject><subject>enzymatic conversions</subject><subject>Erik Kuhn</subject><subject>gasification, mechanical separation, densification, thermochemical conversions, biochemical conversions, torrefaction, hydothermal carbonization</subject><subject>Hamid Rezaei</subject><subject>Hyungseok Nam</subject><subject>Jaya Shankar Tumuluru</subject><subject>Jeffrey A. Lacey</subject><subject>Jipeng Yan</subject><subject>John Earl Aston</subject><subject>Kingsley L. Iroba</subject><subject>Larry Felix</subject><subject>Ling Liang</subject><subject>Lope G. Tabil</subject><subject>Majid Soleimani</subject><subject>Neal Yancey</subject><subject>Nick Nagle</subject><subject>Ning Sun</subject><subject>Power & Energy</subject><subject>SCI-TECHnetBASE</subject><subject>STMnetBASE</subject><isbn>9781498765480</isbn><isbn>1498765483</isbn><isbn>9781498765473</isbn><isbn>1498765475</isbn><isbn>036778100X</isbn><isbn>9780367781002</isbn><isbn>9781315153735</isbn><isbn>1315153734</isbn><isbn>9781498765480</isbn><isbn>1498765483</isbn><isbn>1351649779</isbn><isbn>9781351649773</isbn><fulltext>true</fulltext><rsrctype>book</rsrctype><creationdate>2018</creationdate><recordtype>book</recordtype><sourceid>I4C</sourceid><recordid>eNqNkb1PwzAQxY0QCCgd2SMWxFCw48-MtCofUiUYEKt1SS4lIo2Lnbbiv8clINGtk3Xn33v2vSPkgtEbllJ2m2nDOJNMcs3lARnu1Id9LTKjlRSGHpMzRoXOOKeanpBhCHVOJZUpM1SckvG4dgsIIXnxuPSuwHjfzhNoy22n8wjdAtsuJJXzsePKVdHVrk1clURltcImnJOjCpqAw99zQN7up6-Tx9Hs-eFpcjcbAUuVMiMBAFwpmhkoqlRVplAVT0WZYfwQlgZlLsrc5EhZLkuWsaxAgwIwNVJBrviAXPfGED5wE95d0wW7bjB37iPYnan3YLlkSmRa88he9WwM4HOFobM_WBHn9tDY6XgihdZSbEnRk3Ub81jAxvmmtB18Nc5XHtqiDv8e-FtJlE33kzFqtxvelds1-hAzT6PPZe9TQICmbmu7cK2be1i-Byu5EVoq_g0ugqOU</recordid><startdate>2018</startdate><enddate>2018</enddate><creator>Tumuluru, Jaya Shankar</creator><general>CRC Press</general><general>Taylor & Francis Group</general><scope>I4C</scope></search><sort><creationdate>2018</creationdate><title>Biomass Preprocessing and Pretreatments for Production of Biofuels</title><author>Tumuluru, Jaya Shankar</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a12668-4aaa366098acf26f8c6f324d9eb05ed8e5b4db8be01b5d1919ce8e4ae2856ab63</frbrgroupid><rsrctype>books</rsrctype><prefilter>books</prefilter><language>eng</language><creationdate>2018</creationdate><topic>Ajay Kumar</topic><topic>Amber Leland</topic><topic>Amit Khanchi</topic><topic>Ankita Juneja</topic><topic>Ashokkumar Sharma</topic><topic>Avanti Kulkarni</topic><topic>Bahman Ghiasi</topic><topic>Bhavna Sharma</topic><topic>Bio Energy</topic><topic>biomass chemical pretreatments</topic><topic>Biomass energy</topic><topic>biomass thermal pretreatments</topic><topic>Biotechnology</topic><topic>Bryan D. Bals</topic><topic>Chemical and related technologies</topic><topic>Chemical processes</topic><topic>CHEMICALENGINEERINGnetBASE</topic><topic>CHEMLIBnetBASE</topic><topic>co-firing, cofiring</topic><topic>Deepak Kumar</topic><topic>ENERGYANDCLEANTECHnetBASE</topic><topic>enzymatic conversions</topic><topic>Erik Kuhn</topic><topic>gasification, mechanical separation, densification, thermochemical conversions, biochemical conversions, torrefaction, hydothermal carbonization</topic><topic>Hamid Rezaei</topic><topic>Hyungseok Nam</topic><topic>Jaya Shankar Tumuluru</topic><topic>Jeffrey A. Lacey</topic><topic>Jipeng Yan</topic><topic>John Earl Aston</topic><topic>Kingsley L. Iroba</topic><topic>Larry Felix</topic><topic>Ling Liang</topic><topic>Lope G. Tabil</topic><topic>Majid Soleimani</topic><topic>Neal Yancey</topic><topic>Nick Nagle</topic><topic>Ning Sun</topic><topic>Power & Energy</topic><topic>SCI-TECHnetBASE</topic><topic>STMnetBASE</topic><toplevel>online_resources</toplevel><creatorcontrib>Tumuluru, Jaya Shankar</creatorcontrib><collection>Casalini Torrossa eBook Single Purchase</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Tumuluru, Jaya Shankar</au><au>Tumuluru, Jaya Shankar</au><au>Tumuluru, Jaya Shankar</au><format>book</format><genre>book</genre><ristype>BOOK</ristype><btitle>Biomass Preprocessing and Pretreatments for Production of Biofuels: Mechanical, Chemical and Thermal Methods</btitle><date>2018</date><risdate>2018</risdate><volume>1</volume><isbn>9781498765480</isbn><isbn>1498765483</isbn><isbn>9781498765473</isbn><isbn>1498765475</isbn><isbn>036778100X</isbn><isbn>9780367781002</isbn><eisbn>9781315153735</eisbn><eisbn>1315153734</eisbn><eisbn>9781498765480</eisbn><eisbn>1498765483</eisbn><eisbn>1351649779</eisbn><eisbn>9781351649773</eisbn><abstract>Engineering the physical, chemical, and energy properties of lignocellulosic biomass is important to produce high-quality consistent feedstocks with reduced variability for biofuels production. The emphasis of this book will be the beneficial impacts that mechanical, chemical, and thermal preprocessing methods can have on lignocellulosic biomass quality attributes or specifications for solid and liquid biofuels and biopower production technologies. "Preprocessing" refers to treatments that can occur at a distance from conversion and result in an intermediate with added value, with improved conversion performance and efficiency.
This book explores the effects of mechanical, chemical, and thermal preprocessing methods on lignocellulosic biomass physical properties and chemical composition and their suitability for biofuels production. For example, biomass mechanical preprocessing methods like size reduction (which impacts the particle size and distribution) and densification (density and size and shape) are important for feedstocks to meet the quality requirements for both biochemical and thermochemical conversion methods like enzymatic conversion, gasification, and pyrolysis process. Thermal preprocessing methods like drying, deep drying, torrefaction, steam explosion, hydrothermal carbonization, and hydrothermal liquefaction effect feedstock's proximate, ultimate and energy property, making biomass suitable for both solid and liquid fuel production. Chemical preprocessing which includes washing, leaching, acid, alkali, and ammonia fiber explosion that can enable biochemical composition, such as modification of lignin and hemicellulose, and impacts the enzymatic conversion application for liquid fuels production. This book also explores the integration of these preprocessing technologies to achieve desired lignocellulosic biomass quality attributes for biofuels production.
Table of contents
Introduction
Jaya Shankar Tumuluru
MECHANICAL PREPROCESSING
Conventional and Advanced Mechanical Preprocessing Methods for Biomass: Performance- Quality Attributes and Cost Analysis
Jaya Shankar Tumuluru, and Neal Yancey
Effects of Mechanical Preprocessing Technologies on Gasification Performance and Economic Value of Syngas
Amit Khanchi, Bhavna Sharma, Ashok Kumar Sharma, Ajay Kumar, Jaya Shankar Tumuluru, and Stuart Birrell
Mechanical Fractionation of Biomass Feedstocks for Enhanced Pretreatment and Conversion
Jeffery A. Lacey
Biomass Gasification and Effect of Physical Properties on Products
Sushil Adhikari, Hyungseok Nam, and Avanti Kulkarni
The impacts of biomass pretreatment methods on bio-oil production
Yang Yue, and Sudhagar Mani
THERMAL PREPROCESSING
Steam Treatment of Cellulosic Biomass for Pelletization
Shahab Sokhansanj, Hamid Rezaei, Pak Sui (Wilson) Lam, Tang Yong, Bahman Ghiasi, and Zahra Tooyserkani
Hydrothermal Carbonization (HTC) of Biomass for Energy Applications
S. Kent Hoekman, Amber Broch, and Larry Felix
9. Thermal Pretreatment of Biomass to make it Suitable for Biopower Application
Jaya Shankar Tumuluru
10. The Impacts of Thermal Pretreatments on Biomass Gasification and Pyrolysis Processes
Ajay Kumar, and Zixu Yang
11. Hydrothermal Liquefaction – A Promising Technology for High Moisture Biomass Conversion
Ankita Juneja, Deepak Kumar, and Jaya Shankar Tumuluru
CHEMICAL PREPROCESSING
12. Chemical Preprocessing of Feedstocks for Improved Handling and Conversion to BioFuels
John Erl Aston
Ammonia fiber expansion and its impact on subsequent densification and enzymatic conversion
Bryn D Bals and Timothy J Campbell
Acid Preprocessing Treatments: Benefit for Bioconversion of Biomass for Liquid Fuels and Bioproduct Production
Nick Nagle, and Erik Kuhn
Impacts, Challenges and Economics of Ionic Liquid Pretreatment of Biomass
Ning Sun, Jipeng Yan, Ling Liang, and Todd R. Pray
Compositional and Structural Modification of Lignocellulosic Biomass for Biofuel Production by Alkaline Treatment
Kingsley L. Iroba, Majid Soleimani, and Lope G. Tabil
Dr. Jaya Shankar Tumuluru is a senior scientist in the Biofuels Department at the Idaho National Laboratory. He is the principal investigator for the Biomass Size Reduction, Drying, and Densification project supported by the Bioenergy Technologies Office at the U.S. Department of Energy. At INL his research is focused on mechanical and thermal preprocessing and pretreatments of biomass. Dr. Tumuluru has also worked on understanding the storage behavior of woody, and herbaceous biomass, biomass drying, food processing using extrusion cooking, shelf-stable food products, food storage, and process modeling and optimization. He has acted as a reviewer for many high impact factor journals in bioenergy and food processing. He has also reviewed the proposal for national, international grant agencies. He has published more than 100 papers in the peer-reviewed journals, book chapters, conference proceedings and has presented more than 80 papers in national and international conferences. He has received numerous awards, such as outstanding reviewer for American Society of Agricultural and Biological Engineers, and INL’s Outstanding Achievement in Scientific and Technical Publication, Asian American Engineer of the Year Award for 2018 and R & D 100 award finalist for the year 2018. Dr. Jaya Shankar Tumuluru did his Ph.D. in Agricultural and Food Engineering, from Indian Institute of Technology, Kharagpur, India.</abstract><cop>United States</cop><pub>CRC Press</pub><doi>10.1201/9781315153735</doi><oclcid>1047933070</oclcid><tpages>12</tpages><tpages>470</tpages><tpages>458</tpages><edition>1</edition></addata></record> |
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| recordid | cdi_askewsholts_vlebooks_9781498765480 |
| source | Ebook Central Perpetual and DDA |
| subjects | Ajay Kumar Amber Leland Amit Khanchi Ankita Juneja Ashokkumar Sharma Avanti Kulkarni Bahman Ghiasi Bhavna Sharma Bio Energy biomass chemical pretreatments Biomass energy biomass thermal pretreatments Biotechnology Bryan D. Bals Chemical and related technologies Chemical processes CHEMICALENGINEERINGnetBASE CHEMLIBnetBASE co-firing, cofiring Deepak Kumar ENERGYANDCLEANTECHnetBASE enzymatic conversions Erik Kuhn gasification, mechanical separation, densification, thermochemical conversions, biochemical conversions, torrefaction, hydothermal carbonization Hamid Rezaei Hyungseok Nam Jaya Shankar Tumuluru Jeffrey A. Lacey Jipeng Yan John Earl Aston Kingsley L. Iroba Larry Felix Ling Liang Lope G. Tabil Majid Soleimani Neal Yancey Nick Nagle Ning Sun Power & Energy SCI-TECHnetBASE STMnetBASE |
| title | Biomass Preprocessing and Pretreatments for Production of Biofuels: Mechanical, Chemical and Thermal Methods |
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