Professor
Tel(Office):0086-27-87542417
Email: cluo@hust.edu.cn
Academic Areas: Energy and Thermal Engineering for PhD and Master degree
Research Interests: Carbon dioxide capture, Solar heat storage, Methane reforming.
Academic Degrees
PhD, 2013, School of Energy and Power Engineering, Huazhong University of Science and Technology, China.
Bachelor, 2006, School of Energy and Power Engineering, Huazhong University of Science and Technology, China.
Professional Experience
Associate Professor (2016-present); School of Energy and Power Engineering, Huazhong University of Science and Technology, China.
Post-doctor, Lecturer (2013-2016); School of Mechanical Science and Engineering, Huazhong University of Science and Technology, China.
Visitor (2011-2012); School of Mechanical and Mining Engineering, The University of Queensland, Australia.
Selected Publications
·1. Sorption enhanced steam reforming of ethanol over Ni-based catalyst coupling with high-performance CaO pellets. Chemical Engineering Journal 2021, 406, 126903.
·2. Glycine tailored effective CaO-based heat carriers for thermochemical energy storage in concentrated solar power plants. Energy Conversion and Management 2021, 250C, 114886.
·3. Development of a cordierite monolith reactor coated with CeO2-supported BaSrCo-based perovskite for chemical looping steam methane reforming. Fuel Processing Technology 2021, 220, 106889.
·4. Effect of different organic compounds on the preparation of CaO-based CO2 sorbents derived from wet mixing combustion synthesis. Chinese Journal of Chemical Engineering 2021, 36, 157-169.
·5. Effect of Sodium Bromide on CaO-Based Sorbents Derived from Three Kinds of Sources for CO2 Capture. ACS Omega 2020, 5 (29), 17908-17917.
·6. Development of LaFeO3 modified with potassium as catalyst for coal char CO2 gasification. Journal of CO2 Utilization 2019, 32, 163-169.
·7. Development of BaSrCo-based perovskite for chemical-looping steam methane reforming: A study on synergistic effects of A-site elements and CeO2 support. Fuel 2019, 253, 311-319.
·8. Investigation on the thermodynamic calculation of a 35 MWth oxy-fuel combustion coal-fired boiler. International Journal of Greenhouse Gas Control 2018, 71, 36-45.
·9. Potential Synergy of Chlorine and Potassium and Sodium Elements in Carbonation Enhancement of CaO-Based Sorbents. ACS Sustainable Chemistry & Engineering 2018, 6 (9), 11677-11684.
·10. Porous spherical calcium-based sorbents prepared by a bamboo templating method for cyclic CO2 capture. Fuel 2018, 219, 94-102.
·11. Effect of lignin, cellulose and hemicellulose on calcium looping behavior of CaO-based sorbents derived from extrusion-spherization method. Chemical Engineering Journal 2018, 334, 2520-2529.
·12. Increasing Porosity of Molded Calcium-Based Sorbents by Glucose Templating forCyclic CO2 Capture. Chemical Engineering & Technology 2018, 41 (5), 956-963.
·13. NaBr-Enhanced CaO-Based Sorbents with a Macropore-Stabilized Microstructure for CO2 Capture. Energy & Fuels 2018, 32 (8), 8571-8578.
·14. NO Removal from Flue Gas Using Conventional Imidazolium-Based Ionic Liquids at High Pressures. Energy & Fuels 2018, 32 (5), 6039-6048.
·15. A novel composite perovskite-based material for chemical-looping steam methane reforming to hydrogen and syngas. Energy Conversion and Management 2018, 171, 12-19.
·16. Natural Calcium-Based Sorbents Doped with Sea Salt for Cyclic CO2 Capture. Chemical Engineering & Technology 2017, 40 (3), 522-528.
·17. Oxygen desorption behavior of sol-gel derived perovskite-type oxides in a pressurized fixed bed reactor. Chemical Engineering Journal 2017, 323, 340-346.
·18. Macropore-Stabilized Limestone Sorbents Prepared by the Simultaneous Hydration-Impregnation Method for High-Temperature CO2 Capture. Energy & Fuels 2016, 30 (4), 3219-3226.
·19. Characteristics and performance of CaO-based high temperature CO2 sorbents derived from a sol-gel process with different supports. RSC Advances 2016, 6 (83), 79285-79296.
·20. Synthesis and characteristics of BaSrCoFe-based perovskite as a functional material for chemical looping gasification of coal. International Journal of Hydrogen Energy 2016, 41 (48), 22846-22855.
·21. Wet mixing combustion synthesis of CaO-based sorbents for high temperature cyclic CO2 capture. Chemical Engineering Journal 2015, 267, 111-116.
·22. Cyclic CO2 capture characteristics of a pellet derived from sol-gel CaO powder with Ca12Al14O33 support. Korean Journal of Chemical Engineering 2015, 32 (5), 934-938.
·23. Effect of sulfation on CO2 capture of CaO-based sorbents during calcium looping cycle. Fuel 2014, 127, 124-130.
·24. Manufacture of calcium-based sorbents for high temperature cyclic CO2 capture via a sol-gel process. International Journal of Greenhouse Gas Control 2013, 12, 193-199.
·25. Effect of Support Material on Carbonation and Sulfation of Synthetic CaO-Based Sorbents in Calcium Looping Cycle. Energy & Fuels 2013, 27 (8), 4824-4831.
·26. Effect of Sulfation during Oxy-Fuel Calcination Stage in Calcium Looping on CO2 Capture Performance of CaO-Based Sorbents. Energy & Fuels 2013, 27 (2), 1008-1014.
·27. Morphological Changes of Pure Micro- and Nano-Sized CaCO3 during a Calcium Looping Cycle for CO2 Capture. Chemical Engineering & Technology 2012, 35 (3), 547-554.
·28. Enhanced cyclic stability of CO2 adsorption capacity of CaO-based sorbents using La2O3 or Ca12Al14O33 as additives. Korean Journal of Chemical Engineering 2011, 28 (4), 1042-1046.
·29. SGCS-made ultrafine CaO/Al2O3 sorbent for cyclic CO2 capture. Chinese Chemical Letters 2011, 22 (5), 615-618.
·30. Development and Performance of CaO/La2O3 Sorbents during Calcium Looping Cycles for CO2 Capture. Industrial & Engineering Chemistry Research 2010, 49 (22), 11778-11784.
Awards:
·2018 Science and Technology Innovation in Hubei Province (First Prize) : Multi-scale mechanisms and process directional regulation of chemical looping for CO2 capture.
Courses Taught
·Introduction to low carbon utilization of fossil energy
Projects
1.National Natural Science Foundation of China: 52176109, Mechanism of Potassium Salt Modification and Low Temperature Thermal Activation of Natural Calcium-based CO2 Adsorbent for Pore-forming, 2022/01—2025/12
2.Intergovernmental Key project for Science and Technology Innovation Cooperation: 2019YFE0100100, Upgrading and innovation of carbon capture, utilization and storage, 2020/01—2021/12
3.National Key Research and Development Programme of China: 2018YFB0605304-06, Emission characteristics of a 35MWth oxyfuel combustion system, 2018/05-2021/04
4.National Natural Science Foundation of China: CaO pore evolution mechanism and Ca-C-S competing reaction characteristics during calcium looping for CO2 capture, 51606076, 2017/01—2019/12
5.National Key Research and Development Programme of China: 2016YFB0600801, Interface reaction and transfer mechanisms in complex porous structures, 2016/07-2020/12