Speakers

Subject to change.  

Full NameCompany/OrganizationSpeaking At
Philipp MohnTechnical University of DarmstadtExploring the Scalability of Chemical-Looping Combustion for Sustainable Waste-to-Energy Applications through Pilot Testing at 150 kWth and 1 MWth Scale
Christopher MuhichArizona State UniversityAccelerating the Extraction of Materials Thermodynamics for Chemical Looping by a Bayesian Approach
Luke NealNC St. UniveristyMolten Salt Promoters for Chemical Looping Oxidative Dehydrogenation
Nasrin NematiChalmers University of TechnologyChemical-looping combustion in packed-fluidized bed reactor: Experimental and modeling investigation into the effect of random metal packings
Bihter PadakUniversity of California IrvineEffect of Sulfur Dioxide on the Reactivity of Cu-Mn Oxygen Carrier for Chemical Looping with Oxygen Uncoupling
Effect of Nitrogen Oxide on the Reactivity of Cu-Mn Oxygen Carrier for Chemical Looping with Oxygen Uncoupling
Theodoros PapalasUniversity of Cambridge
Isabel Cristina Pazmino MayorgaUniversity of ManchesterHydrogen Production Via Chemical Looping: Modelling, Design and Techno-Economic Analysis
Victor PurnomoChalmers University of TechnologyPhysical properties of oxygen carriers at high reduction degrees
Rafal RajczykCzestochowa University of TechnologyNovel design of fuel reactor for chemical looping combustion
Mohammad SaghafifarUniversity of CambridgeA comparative analysis of different thermochemical electricity storage systems
Fabrizio ScalaUniversità di Napoli Federico IIChemical looping sorption-enhanced CO2 methanation using zeolites in a lab-scale interconnected fluidized bed system
Evaluation of the performance of limestone-based sorbents for sorption-enhanced gasification in presence of steam in a lab-scale interconnected fluidized bed apparatus
Chemical looping with integrated CO2 capture and methanation in fluidized bed reactors using highly performing dual function materials
Stuart ScottUniversity of CambridgeInvestigation of Kinetic Enhancement of Ca2Fe2O5 (C2F) by impregnating CuO, NiO, and CeO2
Chemical Looping Methane Pyrolysis and CO2 Utilisation Using Alkali Earth-Supported Fe-based Catalysts in a Fluidised Bed Reactor
Ranjani SiriwardaneU.S. Department of Energy, National Energy Technology LabConversion of biomass to H2 via chemical looping: Experimental evaluation of various wood feedstocks and thermodynamic integrated process analysis
Vincenzo SpallinaThe University of ManchesterHigh-Pressure Chemical Looping with Packed Bed Reactors: Challenges, Advances and New Process Configurations
Andrea StrazzoliniUniversity of UdineReactivity of dicalcium ferrite for fuel-assisted Chemical Looping Water Splitting under pressurized conditions
Enhanced oxygen carriers for chemical looping steam methane reforming prepared by physical mixing
Xinyue SuSoutheast UniversityAlternate cycles of CO2 storage and in-situ hydrogenation to CH4 on Ni-Na-Al2O3: Influence of preparation methods
Zhenkun SunSoutheast UniversityChemical looping methane reforming using ilmenite as both catalyst and oxygen carrier
Zhao SunCentral South UniversityLattice oxygen-induced oxidative steam reforming of methanol: A new pathway for low-temperature hydrogen generation
Robert SymondsNatural Resources CanadaPressurized Chemical Looping – Steam Methane Reforming for Thermal H2 Production
Preston TanNanyang Technological UniversityCalcium looping for post-combustion CO2 capture from from waste-to-energy plants using sorbents derived from incineration ashes