Direct Thermochemical Liquefaction for Energy Applications

  • ID: 4226335
  • Book
  • 380 Pages
  • Elsevier Science and Technology
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Direct Thermochemical Liquefaction for Energy Applications presents the state-of-the-art of the value chains associated with these biomass conversion technologies. It covers multiple feedstock availability and feedstock composition impact on process chemistry and product quality and composition. Expert authors from around the world explore co-processing benefits, process parameters, implementation and scaling, upgrading to drop-in liquid biofuels or integration into existing petrochemical refinery infrastructure.

Finally, these topics are put into a sustainability perspective by establishing an LCA framework for this type of process. Its focus on implementation based on the most comprehensive knowledge makes this book particularly useful for researchers and graduate students from all sorts of background working in the field of biomass and biofuels. It is also a valuable reference for engineers working to commercialize DTL technologies, engineering specialists designing process equipment, refinery professionals and developers.

  • Focuses on implementation and scaling of direct thermochemical liquefaction technologies for biomass conversion into biofuels
  • Covers the state-of-the-art of the technologies, as well as technical and sustainability implementation aspects
  • Includes new approaches and concepts developed around the world within the different DTL technologies

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Part A: Feedstock 1. Feedstock characterization and analysis 2. Feedstock and residual resource inventory

Part B: Fundamentals of DTL processes and 3. State-of-the-art and fundamentals of pyrolysis 4. State-of-the-art and fundamentals of solvolysis 5. State-of-the-art and fundamentals of hydrothermal liquefaction 6. Catalytic upgrading and hydrotreatment of DTL oils to fuels and chemicals

Part C: DTL technology implementations 7. Pretreatment of lignocellulosic biomass for continuous processesing 8. Pyrolysis technologies for continuous operation 9. HTL technologies for continuous operation 10. Scaling of DTL technology and components

Part D: LCA and biorefinery considerations 11. Sustainability analysis of DTL plants and processes 12. DTL in the context of biorefining

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Rosendahl, LasseLasse Rosendahl is a Professor in the Department of Energy Technology at Aalborg University, Denmark. Professor Rosendahl has over 15 years' experience in renewable energy and has published extensively in this field.
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