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Green, clean and renewable are the hottest keywords for catalysis and industry. This handbook and ready reference is the first to combine the fields of advanced experimentation and catalytic process development for biobased materials in industry. It describes the entire workflow from idea, approach, research, and process development, right up to commercialization. A large part of the book is devoted to the use of advanced technologies and methodologies like high throughput experimentation, as well as reactor and process design models, with a wide selection of real-life examples included at each stage. The contributions are from authors at leading companies and institutes, providing firsthand
information and knowledge that is hard to find elsewhere.
This work is aimed at decision makers, engineers and chemists in industry, chemists and engineers working with/on renewables, chemists in the field of catalysis, and chemical engineers.
List of contents
THE NEXT FEEDSTOCK TRANSITION
PREFACE
THE INDUSTRIAL PLAYING FIELD FOR THE CONVERSION OF BIOMASS TO RENEWABLE FUELS AND CHEMICALS
Introduction
The Renewables Arena
Renewable Fuels
Renewable Chemicals
Conclusions
SELECTING TARGETS
Introduction
Target Selection Can Focus on Specific Structures or General Technologies
Previous Selection Efforts
Corroboration of the Value of Screening Studies
The Importance of Outcomes and Comparisons of Outcomes
Evaluation Processes Can be Comprised of a Variety of Criteria
Catalysis Aspects
Conclusions
THE DEVELOPMENT OF CATALYTIC PROCESSES FROM TERPENES TO CHEMICALS
Introduction
Strain Engineering for the Production of Terpenes
Terpene Building Blocks of Commercial Interest
Sesquiterpenes as Chemical Building Blocks: ß-Farnesene
Polymers
Lubricants
Conclusions
FURAN-BASED BUILDING BLOCKS FROM CARBOHYDRATES
Importance of Furans as Building Blocks
Sources of Carbohydrates
Carbohydrate Dehydration
Conclusions and Further Perspectives
A WORKFLOW FOR PROCESS DESIGN - USING PARALLEL REACTOR EQUIPMENT BEYOND SCREENING
Introduction
The Evolution of Parallel Reactor Equipment
The Evolution of Research Methodology - Conceptual Process Design
Essential Workflow Elements
Other Examples of Parallel Reactor Equipment Applied Beyond Screening - Long-Term Catalyst Performance
Concluding Remarks
BRASKEM'S ETHANOL TO POLYETHYLENE PROCESS DEVELOPMENT
Introduction
Ethanol and Brazil
Commercial Plants for Ethanol Dehydration
Legislation and Certification
Process Description
Polymerization
Conclusion
FATS AND OILS AS RAW MATERIAL FOR THE CHEMICAL INDUSTRY
Introduction - Setting the Scene, Definitions
Why Fats and Oils Need Catalytic Transformation
Catalytic Process Development - Conceptual
Fatty Alcohols: Then and Now, a Case Study
Conclusion and Outlook: Development Challenges for the Future
PRODUCTION OF AROMATIC CHEMICALS FROM BIOBASED FEEDSTOCK
Introduction
Chemical Routes to Aromatic Chemicals from Biomass
Biological Routes to Specific Aromatic Chemicals
Lignin - The Last Frontier
Considerations for Scale-Up and Commercialization
Conclusion
ORGANOSOLV BIOREFI NING: CREATING HIGHER VALUE FROM BIOMASS
Introduction
Concepts and Principles of Biorefinery Technologies
Catalytic Processes Employed in Biorefining
An Organosolv Biorefinery Process for High-Value Products
Conclusions
BIOMASS-TO-LIQUIDS BY THE FISCHER - TROPSCH PROCESS
Basics of Fischer - Tropsch Chemistry and BTL
Cobalt Fischer - Tropsch Catalysis
Fischer - Tropsch Reactors
Biomass Pretreatment and Gasification
Biomass-to-Liquids Process Concepts
BTL Pilot and Demonstration Plants
XTL Energy and Carbon Efficiencies
BTL Summary and Outlook
CATALYTIC TRANSFORMATION OF EXTRACTIVES
Introduction
Fine and Special Chemicals from Crude Tall Oil Compounds
Fine and Special Chemicals from Turpentine Compounds
Conclusions
Acknowledgment
ENVIRONMENTAL ASSESSMENT OF NOVEL CATALYTIC PROCESSES BASED ON RENEWABLE RAW MATERIALS - CASE STUDY FOR FURANICS
Introduction
Energy Savings by Catalytic Processes
LCA Methodology
Case Study: Energy Analysis and GHG Balance of Polyethylene Furandicarboxylate (PEF) as a Potential Replacement for Polyethylene Terephthalate (PET)
Discussion and Conclusions
CARBON DIOXIDE: A VALUABLE SOURCE OF CARBON FOR CHEMICALS, FUELS AND MATERIALS
Introduction
The Conditions for Industrial Use of CO2
Carbon Dioxide Conversion
Energy Products from CO2
Production of Inorganic Carbonates
Enhanced Fixation of CO2 into Aquatic Biomass
Conclusion and Fu
About the author
Dr. Pieter Imhof is VP Strategic Account Management at Avantium Chemicals B.V. after having held several positions in R&D at Akzo Nobel Catalysts, Technical Service, Marketing and Product development at Akzo Nobel and Albemarle. Within Avantium Pieter has been responsible for Global Business Development, Sales and Marketing for high throughput systems and services in both Chemical and Pharmaceutical Industry. Pieter got his academic degrees in Organometallic Chemistry at the University of Amsterdam. He has published and contributed to almost 100 scientific and conference papers and patents.
Summary
Green, clean and renewable are the hottest keywords for catalysis and industry. This handbook and ready reference is the first to combine the fields of advanced experimentation and catalytic process development for biobased materials in industry. It describes the entire workflow from idea, approach, research, and process development, right up to commercialization. A large part of the book is devoted to the use of advanced technologies and methodologies like high throughput experimentation, as well as reactor and process design models, with a wide selection of real-life examples included at each stage. The contributions are from authors at leading companies and institutes, providing firsthand
information and knowledge that is hard to find elsewhere.
This work is aimed at decision makers, engineers and chemists in industry, chemists and engineers working with/on renewables, chemists in the field of catalysis, and chemical engineers.
Report
"Overall, especially for an edited book, this is a well organized book showing the overall story, rather than giving only pieces of a puzzle . . . It makes for an entertaining read. The book is certainly more suited to researchers in the field or at least with some background information." ( Green Processing and Synthesis , 1 August 2013)
