| Qin Zhen | 华中科技大学 | |
| Fang Hao | Xiangtan University | |
| Xin Tian | Wuhan University | Tandem redox catalysts boost ethylene production by integrating ethane dehydrogenation with selective hydrogen combustion
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| Ewelina Ksepko | Wroclaw University of Science and Technology | Evaluation of effect of additions used to OCs during co-combustion of coal and biomass
Hard coal combustion through chemical looping using iron spinel-based materials
CLC a potential pathway to a net carbon dioxide neutrality applying ferrites and biomass
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| Ramesh Agarwal | Washington University in St. Louis | Investigation of force network characteristics in a moving bed CLC air reactor using the discrete element method
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| Ranjani Siriwardane | U.S. Department of Energy, National Energy Technology Lab | Conversion of biomass to H2 via chemical looping: Experimental evaluation of various wood feedstocks and thermodynamic integrated process analysis
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| Andrea Strazzolini | University of Udine | Reactivity 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
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| Adnan Akhtar | University of Southampton | Synthesis of novel bi-metallic doped LaNiO3 as an advanced hybrid oxygen carrier-sorbent for chemical looping carbon capture applications
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| Syed Zaheer Abbas | University of Southampton | Experimental assessment of reverse water gas shift integrated with chemical looping for low-carbon fuel applications
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| Santiago Daniel Zapata Boada | University of Manchester | Techno-Economic Analysis of blast furnace gas utilisation with Calcium Assisted Steel-mill Off-gas Hydrogen production (CASOH) technology
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| Isabel Cristina Pazmino Mayorga | University of Manchester | Hydrogen Production Via Chemical Looping: Modelling, Design and Techno-Economic Analysis
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| Ismaeel Ali | University of Manchester | 2-Dimensional Experimental and Modelling Temperature Mapping for Oxidation and Reduction Cycles in Packed Bed Chemical Looping Reforming (CLR) for Low Carbon Hydrogen Production
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| Christopher de Leeuwe | University of Manchester | RECYCLE: REthinking low Carbon Hydrogen production by Chemcial Looping Reforming
Combining Ni and Fe to lower the cost and environmental impact of Chemical Looping Reforming of CH4
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| Kunlei Liu | University of Kentucky | Keynote: Application of Chemical Looping for Direct Iron Production and Lithium Battery Recycle
A Fluidization Process for Metal Enrichment from End-of-Life Lithium-Ion Batteries
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| Abu Farhan Bin Abu Kasim | University of Cambridge | Orchestrating propagation of heat and reaction fronts in a packed bed of SrFeO3-δ for energy storage applications
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| Mohammad Saghafifar | University of Cambridge | A comparative analysis of different thermochemical electricity storage systems
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| Joseph Gebers | University of Cambridge | A chemical looping approach for the oxidative dehydrogenation of methanol
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| Stuart Scott | University of Cambridge | Investigation 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
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| Theodoros Papalas | University of Cambridge | |
| Bihter Padak | University of California Irvine | Effect 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
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