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Chemical Engineering for Renewables Conversion
 
 

Chemical Engineering for Renewables Conversion, 1st Edition

 
Chemical Engineering for Renewables Conversion, 1st Edition,Dmitry Murzin,ISBN9780123865052
 
 
 

Advances in Chemical Engineering

D Murzin   

Academic Press

9780123865052

9780123865069

384

229 X 152

Although various aspects of biomass transformations are frequently discussed in the literature, chemical engineering aspects of such transformations are commonly not considered. The aim of the present book is to fill this void.

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Key Features

* Updates and informs the reader on the latest research findings using original reviews
* Written by leading industry experts and scholars
* Reviews and analyzes developments in the field

Description

Biomass has received considerable attention as a sustainable feedstock that can replace diminishing fossil fuels for the production of energy and chemicals. At the present moment in the oil refining, petrochemical and chemical industry, after fractionation of crude oil, various fractions are upgraded either to fuels or functionalized to produce intermediates and specialty chemicals. An analogous concept of biorefining is based on the utilization of biomass as a renewable source of carbon, which could be transformed to valuable chemicals. Although various aspects of biomass transformations are frequently discussed in the literature, chemical engineering aspects of such transformations are commonly not considered. The aim of the present book is to fill this void.

Readership

Organic chemists, polymer chemists, biological scientists and chemical engineers working in academia, government and industry

Dmitry Murzin

Dmitry Murzin is Professor of Chemical Technology at Åbo Akademi University in Turku, Finland, and for the past 10 years he has served as Professor at the Finland University's Laboratory of Industrial Chemistry and Reaction Engineering. Previously, he headed the chemicals division of BASF Corporation in Moscow. He also spent seven years as a researcher in the Department of Catalysis at the Karpov Institute of Physical Chemistry, Moscow. From 2009-2013 Murzin served as Vice President of the European Federation of Catalysis Societies. Murzin is author or co-author of more than 650 journal articles and book chapters.

Affiliations and Expertise

Professor, Chemical Technology, Åbo Akademi University, Turku, Finland

View additional works by Dmitry Yu Murzin

Chemical Engineering for Renewables Conversion, 1st Edition

Series Page

Contributors

Preface

Chapter One. Engineering Aspects of Bioethanol Synthesis

List of abbreviations

1. Introduction

2. Polysaccharides: Potent Raw Materials for Bioethanol Production

3. Monosaccharides (Monomeric Sugars)

4. Sugar Analysis

5. Production of Ethanol from Renewable Feedstocks

6. Cellulosic Ethanol

7. Historical and Current Considerations Around Cellulosic Bioethanol

8. Thermodynamic Analysis of Ethanol Production from Biomass

9. Biofilm Reactors for Bioethanol Production

10. Kinetic Analysis of Bioethanol Production

11. Biomass-to-Liquid Ethanol Production from Synthesis Gas

12. Bioethanol Valorization over Inorganic Heterogeneous Catalysts: Classical Liquid and Gaseous Products

13. Summary and Conclusions

References

Chapter Two. Biomass Pyrolysis

1. Introduction

2. Thermochemical Conversion of Biomass

3. Pyrolysis Reactions

4. Feed Properties Relevant to Reactor Design

5. Product Specifications Relevant to Reactor Design

6. Process Variables Relevant to Reactor Design

7. Reactor Technology Development

8. Conclusions

References

Chapter Three. Hydrotreating of Triglyceride-Based Feedstocks in Refineries

List of Symbols A. Latin Letters

B. Greek Letters

C. Subscripts and Superscripts

Abbreviations

1. Introduction

2. Basics of Deoxygenation Chemistry

3. Thermodynamic Aspects of Deoxygenation

4. Hydrodynamics Aspects

5. Kinetics Aspects

6. Deactivation Aspects

7. Commercial Status of HDO

8. Conclusion

References

Chapter Four. Chemical Reaction Engineering of Biomass Conversion

Notation

Dimensionless parameters

Subscripts and superscripts

1. Introduction

2. Reaction Kinetics

3. Porous Catalyst Structures—Reaction, Diffusion, and Catalyst Deactivation

4. Reactor Modeling and Simulation Aspects

5. Model Simulation and Parameter Estimation Methodology

6. Case Studies

7. Conclusions and Perspectives

References

Chapter Five. Chromatographic Fractionation of Lignocellulosic Hydrolysates

1. Introduction

2. Hydrolysis of Lignocellulosic Biomass

3. Process Options for Chromatographic Separations

4. Fundamental Phenomena in Chromatographic Fractionation of Lignocellulosic Hydrolysates

5. Chromatographic Fractionation of Lignocellulosic Hydrolysates

6. Adsorptive Removal of Inhibitory Compounds

7. Selective Separation of Monosaccharides

8. Conclusions

References

Subject Index

Contents of Volumes in this Serial

 
 
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