Education & Working Experience

1978-1982, Central-South of Mining and Metallurgy (Central South University today), Non-ferrous Metallurgy, Master

1983.03-1983.09, Northeast Normal University’s Preparatory School for International Students to Japan, Learning Japanese

1983-1989, Tohoku University, Metallurgy Engineering, Ph. D

1989-1990, Tohoku University, Postdoctor

1990-1994, Pacific Metals Co., LTD, Director

1994-2005, Ebara Corp., Japan, Section Manager

2005-Today, University of Science & Technology Beijing, School of Energy and Environmental Engineering, Tenured Professor

Teaching

1. Solar and Wind Energy;

2. Frontiers of Thermal Science

Selected research projects:

1. 10 kW-scale natural gas fueled proton exchange membrane fuel cell(PEMFC) distributed power plant, Beijing Municipal Science and Technology Project.

2. Industrial energy saving technology demonstration and industrialization based on innovative absorption heat pump cycle, Special Project on the Integration of Industry, Education and Research of Guangdong Province.

3. New chemical looping combustion of natural gas technology and demonstration, Beijing Municipal Science and Technology Project.

4. Technology and demonstration of efficient recycling of water resources in steel and nonferrous industry, National Key Research and Development Project.

Selected publications:

[1] Wu Yongjian; Luo Chunhuan; Wu Wei; Su Qingquan*. Denitration of the gas-fired boiler flue gas based on chemical-looping combustion, CHEMICAL ENGINEERING JOURNAL, 2019, 361: 41-49.

[2] Luo Chunhuan; Wang Yanan; Li Yiqun; Wu Yongjian; Su Qingquan*; Tianyu Hu. Thermodynamic properties and application of LiNO3-[MMIM][DMP]/H2O ternary working pair, RENEWABLE ENERGY, 2019, 134: 147-160.

[3] Li Yiqun; Luo Chunhuan; Li Na; Su Qingquan*.Study on CaCl2-LiCl/H2O as working pair of absorption refrigeration cycle，CIESC，2019，70：3483-3494.

[4] Luo Chunhuan; Wang Yanan; Han Xu; Li Yiqun; Su Qingquan*.Density, viscosity, specific heat capacity, and specific enthalpy of a novel ternary working pair: LiBr-[BMIM]Cl/H2O，CHINESE JOURNAL OF ENGINEERING，2019, 41: 731-740．

[5] Wu Yongjian; Luo Chunhuan; Su Qingquan. Study of NH3 removal based on chemical-looping combustion, INDUSTRIAL & ENGINERING CHEMISTRY RESEARCH, 2019, 58: 5054-5063.

[6] Li Na; Luo Chunhuan; Su Qingquan. A working pair of CaCl2-LiBr-LiNO3/H2O and its application in a single-stage solar-driven absorption refrigeration cycle, INTERNATIONAL JOURNAL OF REFRIGERTION, 2018, 86: 1-13.

[7] Luo Chunhuan; Li Yiqun; Li Na; Qingquan Su*. Thermodynamic properties and evaluation of the lithium nitrate-imidazole IL-water ternary systems as new working fluids for a double-effect AHP cycle, INTERNATIONAL JOURNAL OF REFRIGERTION, 2018, 90: 58-72.

[8] Luo Chunhuan; Li Yiqun; Li Na; Wang Yanan; Su Qingquan *. Thermophysical properties of lithium nitrate + 1-ethyl-3-methylimidazolium diethylphosphate + water system, THE JOURNAL OF CHEMICAL THERMODYNAMICS, 2018, 126: 160-170.

[9] Luo Chunhuan; Chen Kang; Li Yiqun; Su Qingquan*. Crystallization Temperature, Vapor Pressure, Density, Viscosity, and Specific Heat Capacity of LiNO3-[BMIM]Cl-H2O Ternary System. JOURNAL OF CHEMICAL AND ENGINEERING DATA, 2017, 62: 3043-3052.

[10] Luo Chunhuan; Li Yiqun; Chen Kang; Li Na; Su Qingquan*. Thermodynamic properties and corrosivity of a new absorption heat pump working pair: lithium nitrate + 1-butyl-3- methylimidazolium bromide + water. FLUID PHASE EQUILIBRIA, 2017, 451: 25-39.

[11] Luo, Chunhuan; Su, Qingquan*; Li, Na, et al. Corrosion of Copper in a Concentrated LiNO3 Solution at a High Temperature, INTERNATIONAL JOURNAL OF ELECTROCHEMICAL SCIENCE, 2017, 12 (3): 1896-1914.

[12] Tian, Qiang, Che, Lixin; Ding, Bin; Wang, Qianwei; Su, Qingquan*. Performance of Cu-Fe-based oxygen carrier in a CLC process based on fixed bed reactors, GREENHOUSE GASES: SCIENCE AND TECHNOLOGY, 2017, 7: 731-744.

[13] Zheng, Xiaoming; Che, Lixin; Hao, Yanqiong; Su, Qingquan*. Cycle performance of Cu-based oxygen carrier based on a chemical-looping combustion process, JOURNAL OF ENERGY CHEMISTRY, 2016, 25 (1): 2095-4956.

[14] Zheng, Xiaoming; Su, Qingquan*; Mi, Wanliang. Study of a Cu-Based Oxygen Carrier Based on a Chemical Looping Combustion Process, ENERGY & FUELS, 2015, 29 (6):3933-3943.

[15] Zheng, Xiaoming; Su, Qingquan*; Mi, Wanliang; Zhang, Peikun. Effect of steam reforming on methane-fueled chemical looping combustion with Cu-based oxygen carrier, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2014, 39 (17): 9158-9168.

[16] Luo, Chunhuan; Su, Qingquan*; Mi, Wanliang. Thermophysical properties and application of LiNO3-H2O working fluid, 2013, 36 (6): 1689-1700.

[17] Luo, Chunhuan; Su, Qingquan*. Corrosion of carbon steel in concentrated LiNO3 solution at high temperature, CORROSION SCIENCE, 2013, 74:290-296.

[18] Luo, Chunhuan; Su, Qingquan*; Mi, Wanliang. Solubilities, Vapor Pressures, Densities, Viscosities, and Specific Heat Capacities of the LiNO3/H2O Binary System, JOURNAL OF CHEMICAL AND ENGINEERING DATA, 2013, 58 (3): 625-633.

[19] Xu, Lihao; Mi, Wanliang; Su, Qingquan*. Hydrogen production through diesel steam reforming over rare-earth promoted Ni/gamma-Al2O3 catalysts, JOURNAL OF NATURAL GAS CHEMISTRY, 2011, 20 (3): 287-293.

[20] Bao Cheng; Su Qingquan*; Mi Wanliang et al. A 10kW-scale Distributed Power Plant of Natural Gas-Proton Exchange Membrane Fuel Cell, CHINESE JOURNAL OF CHEMICAL ENGINEERING, 2010, 18 (6): 988-994.

[21] Bao, Cheng; Shi, Yixiang; Li, Chen; Cal, Ningshen; Su, Qingquan*. Mathematical Modeling of Solid Oxide Fuel Cells at High Fuel Utilization Based on Diffusion Equivalent Circuit Model, AICHE JOURNAL, 2010, 56 (5): 1363-1371.

[22] Li, Zhiyuan; Mi, Wanliang; Liu, Shaobo; Su, Qingquan*.CO deep removal with a method of two-stage methanation, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2010, 35 (7): 2820-2823.

[23] Bao, Cheng; Shi, Yixiang; Li, Chen;Cai, Ningsheng; Su, Qingquan*. Multi-level simulation platform of SOFC-GT hybrid generation system, INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2010, 35 (7): 2894-2899.