Room: Poster Area
Date: Wednesday, 20 May 2026
Time: 15:00 - 16:00 CEST
Session code 4BV.5
Gasification, gas cleaning, upgrading, catalyst performance and modeling on component and system level
Charcoal Gasification Process for Boosting Chemical Looping Hydrogen Generation and CO2 Removal
Short Introductive summary
Sustainable feedstock management to produce CO gas as bioenergy carriers plays a crucial role in integrating with promising technologies, such as the chemical looping hydrogen generation (CLHG). This project uses biomass-derived charcoal from pyrolysis residues and greenhouse gas CO2 to enhance energy recovery and carbon recycling efficiency in the lab. Also, it investigates theoretical approaches to boost hydrogen production with carbon capture and utilization (CCU) by advancing the CLHG process. It converts the high waste heat of exhaust gases for the CLHG into low-carbon products by integrating a water gas shift reactor, which utilizes the oxygen carrier (Fe2O3) in the CLHG as a catalyst along with Mono-Ethanol Amine (MEA) solvent.
Presenter
Jun LI
University of Strathclyde, Chemical and Process Engineering Dpt., UNITED KINGDOM
Presenter's biography
Dr Jun Li is a Reader in the Department of Chemical and Process Engineering at the University of Strathclyde. He is a member of the project management group of the UK Supergen Bioenergy Hub and serves as the Deputy Theme Lead (Bioenergy) at ETP Scotland.
Biographies and Short introductive summaries are supplied directly by presenters and are published here unedited
Co-authors:
J. Li, University of Strathclyde, Glasgow, UNITED KINGDOM
Session reference: 4BV.5.10