Professor
Email: hssh30@163.com
Academic Areas: Thermal Engineering
Research Interests: Thermal Conversion Theory and Technology of Solid Carbon Material
After being awarded the Humboldt scholarship when my postdoctoral was completed in 2004, I came back to China as a Humboldt scholar in 2006 and worked in Huazhong University of Science and Technology. My research is mainly engaged in coal/biomass structure and reactivity, ultra-low combustion pollutant control, low-carbon with hydrogen-rich thermal conversion mechanism and technology. In particular, my work is focused on the nonlinear structure characterization and efficient combustion characteristics of coal/biomass, low nitrogen combustion theory and collaborative control technology, hybrid energy conversion theory and advanced technology development.
In the past five years, 81 SCI papers and 7 textbooks have been published , including 3 ESI highly cited papers, 14 papers cited over 20 times, 2894 times SCI papers cited, and the highest single citation in SCI 141 times. 27 national invention patents, 2 international invention patents, and 2 software copyrights have been authorized. I also applied 3 international patents and 52 national invention patents.
In the nonlinear structure characterization and efficient combustion characteristics of coal/biomass research, I was awarded the National Science and Technology Progress Award in 2014 (Second Prize, Ranked 11).
In the ultra-low combustion pollutant control area, I was awarded the National Science and Technology Progress Award in 2019 (Second Prize, Ranked 2), the National Science and Technology Progress Award in 2014 (Second Prize, Ranked 11) and the Hubei Province Science and Technology Progress Award in 2018 (First Prize, Ranked 2).
In the hybrid energy conversion theory and advanced technology development aspect, I got the New Century Excellent Talents of Ministry of Education in 2013, the Outstanding Youth Foundation of Hubei Province in 2013 and was awarded the Shandong Province Science and Technology Progress Award in 2020 (Second Prize, Ranked 2).
Academic Degree
PhD, 2002, State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology, China;
Professional Experience
Professor (2010-present); State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology.
Research fellow ((Alexander Von Humboldt fellow)) (2005-2006); Bayruth University.
Associate Professor (2004-2010); State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology.
Postdoctoral (2002-2004); State Key Laboratory of Coal Combustion, Huazhong University of Science and Technology.
Selected Publications (81 SCI papers)
· 1. Sijie Ma, Huini Leong, Limo He, Zhe Xiong, Hengda Han, Long Jiang, Yi Wang, Song Hu*, Sheng Su, Jun Xiang. Effects of pressure and residence time on limonene production in waste tires pyrolysis process. Journal of Analytical and Applied Pyrolysis, 2020, 151: 104899.
· 2. Limo He, Guang Liao, Hanjian Li, Qiangqiang Ren, Song Hu*, Hengda Han, Jun Xu, Long Jiang, Sheng Su, Yi Wang, Jun Xiang. Evolution characteristics of different types of coke deposition during catalytic removal of biomass tar. Journal of the Energy Institute, 2020, 93(6): 2497-2504.
· 3. Hanjian Li, Huanying Chi, Hengda Han, Song Hu*, Gongxiang Song, Yankui Wang, Limo He, Yi Wang, Sheng Su, Jun Xiang. Comprehensive study on co-combustion behavior of pelletized coal-biomass mixtures in a concentrating photothermal reactor. Fuel Processing Technology, 2021, 211: 106596.
· 4. Qindong Chen, Song Hu*, Qiyong Xu, Sheng Su, Yi Wang, Kai Xu, Limo He, Jun Xiang. Steam synergic effect on oxygen carrier performance and WGS promotion ability of iron-oxides. Energy, 2021, 215: 119117.
· 5. Kai Xu, Song Hu*, Liangping Zhang, Hanjian Li, Yifeng Chen, Zhe Xiong, Jun Xu, Long Jiang, Yi Wang, Sheng Su, Jun Xiang. Effect of temperature on Shenfu coal pyrolysis process related to its chemical structure transformation. Fuel Processing Technology, 2021, 213: 106662.
· 6. Qiangqiang Ren, Song Hu*, Limo He, Fan Wu, Ziyue Wu, Zhiwen Lei, Sheng Su, Yi Wang, Long Jiang, Jun Xiang. Waste tire heat treatment to prepare sulfur self-doped char via pyrolysis and K2FeO4-assisted activation methods. Waste Management, 2021, 125: 145-153.
· 7. Qiangqiang Ren, Yufei Zhang, Inmaculada Arauzo, Lianying Shan, Jun Xu, Yi Wang, Sheng Su, Song Hu*, Jun Xiang. Roles of moisture and cyclic loading in microstructures and their effects on mechanical properties for typical Chinese bituminous coals. Fuel, 2021, 293: 120408.
· 8. Hengda Han, Song Hu*, Yani Zhang, Limo He, Shagali Abdulmajid Abdullahi, Sijie Ma, Zengtong Deng, Yi Wang, Sheng Su, Jun Xiang. Roles of dehydration conditioners on the formation of apatite phosphorus during the pyrolysis of various sludge. Journal of Environmental Chemical Engineering, 2021, 9(3): 105248.
· 9. Lingfeng Xiao, Song Hu*, Hengda Han, Qiangqiang Ren, Limo He, Long Jiang, Sheng Su, Yi Wang, Jun Xiang. An insight into the OPAHs and SPAHs formation mechanisms during alkaline lignin pyrolysis at different temperatures. Journal of Analytical and Applied Pyrolysis, 2021, 156: 105104.
· 10. Hengda Han, Aishu Li, Hanjian Li, Song Hu*, Yi Wang, Limo He, Jun Xu, Xun Hu, Sheng Su, Jun Xiang. Roles of calcium oxide on the evolution of substituted polycyclic aromatic hydrocarbons released from sewage sludge pyrolysis. Journal of Cleaner Production, 2021, 317: 128324.
Part of Patents:
· 1. Hu Song, Li Hanjian, Xiang Jun, Chi Huanying, Song Gongxiang, Liu Tao, Su Sheng, Wang Yi, Xu Kai, He Limo, Xu Jun, Han Hengda. Magnetic Suspension Thermobalance Based on Photothermal Heating and Measurement. US10852221B2
· 2. Hu Song, Han Hengda, Li Hanjian, Deng Zengtong, Wang Xin, Li Aishu, He Limo, Xu Jun, Wang Yi, Su Sheng, Xiang Jun. Biomass pyrolysis reaction system and method for solar energy concentrating coupled heat storage combustion. ZL202011093018.2
· 3. Hu Song, Li Hanjian, Xu Jun, Chi Huanying, Li Aishu, He Qichen, Xiang Xingrui, He Limo, Han Hengda, Xiong Zhe, Jiang Long, Wang Yi, Su Sheng, Xiang Jun. Coal quality detection and calibration device based on LASER spectrum coupled RFID technology. ZL202010798994.1
· 4. Hu Song, Li Aishu, Yu Pengfeng, Su Pan, Zhao Zhigang, Li Hanjian, Xu Jun, Zhu Meng, Chi Huanying, Xiang Jun, Su Sheng, Wang Yi, Jiang Long. The invention relates to a coal distribution detection method and device. ZL 202010354016.8
· 5. Hu Song, Li Hanjian, Xu Jun, Chi Huanying, Li Aishu, Yu Pengfeng, Su Pan, Xiang Xingrui, Zhao Zhigang, Jiang Long, Wang Yi, Su Sheng, Xiang Jun. Coal identification device and coal quality on-line monitoring system based on RADIO frequency identification. ZL202010799125.0
· 6. Hu Song, Chi Huangying, Li Hanjian, Xiang Jun, Su Sheng, Wang Yi, Xu Kai, He Limo, Xu Jun, Han Hengda. The crystal structure is edited by non-equilibrium DC arc plasma. ZL201910256515.0
· 7. Hu Song, Li Hanjian, Han Hengda, Chi Huanying, Xiang Jun, Su Sheng, Wang Yi, Jiang Long, Xu Kai, Xu Jun, He Limo, Xiong Zhe. System and method of photocatalytic reforming based on spectral splitting. ZL202011051126.3
· 8. Hu Song, Li Hanjian, Chi Huanying, Sha Lianying, Xiang Jun, Su Sheng, Wang Yi, Xu Kai, He Limo, Xu Jun, Han Hengda. Tar cooling and collecting device based on efficient THREE-DIMENSIONAL heat transfer structure. ZL201811592701.3
· 9. Hu Song, Ren Qiangqiang, Su Sheng, Xiang Jun, Wang Yi, Xu Kai, Ouyang Zhufeng, Jiang Ziwei, Wu Yunkai. Combustion optimization method and system for preventing high-temperature corrosion of boiler based on CO online detection. ZL 201811447331.4
· 10. Hu Song, Li Hanjian, Chi Huanying, Chen Xiaofang, Xiang Jun, Su Sheng, Wang Yi, Xu Kai, He Limo, Xu Jun, Han Hengda. Tar cooling collection device based on asymmetrical heat conduction channel. ZL201811591520.9
Awards:
2013 New Century Excellent Talents of Ministry of Education
2014 National Science and Technology Progress Award (Second Prize, Ranked 11)
2018 Science and Technology Progress Award in Hubei Province (First Prize, Ranked 2)
2019 National Science and Technology Progress Award (Second Prize, Ranked 2)
Courses Taught
Clean Combustion Technology
Introduction to the Subject Foundation
Principle and Efficient Utilization Technology of Biomass Thermochemical Conversion
Clean Combustion Theory and Technology
Modern Instrumental Analysis Method
Part of Projects
1. Doctorate Fund of the Ministry of Education: Study on biomass chemical chain gasification, 2008-2009.
2. State Key Development Program for Basic Research of China: 2009CB226100, Basic research on coal efficient hydrogen production based on capturing CO2, 2009-2015.
3. National Natural Science Foundation of China (NSFC): 50976043, Study on the Resource Treatment of CO2 in Power plant with Amino-modified ionic liquids, 2010-2012.
4. National Natural Science Foundation of China (NSFC): 50976038, Study on the clean catalytic combustion of biomass gasification products, 2010-2012.
5. State Key Development Program for Basic Research of China: 2004CB217704, Migration Behavior of harmful elements during coal gasification under high temperature and pressure conditions, 2010-2012.
6. The National High Technology Research and Development Program (‘863’Program) of China: 2012AA063504, Demonstration project and energy utilization technology for sewage sludge treatment with high efficiency, 2012-2016.
7. National Science Foundation of China (NSFC): 51176062, Research on the concerted reaction mechanism of metal oxides and optimization methods during the catalytic gasification process of biomass with simultaneously carbon dioxide capture, 2012-2015.
8. Fund for Outstanding Youth of Hubei Province: 2013CFA036, Reaction mechanism and structure optimization of functional metal oxides in biomass advanced gasification, 2013-2015.
9. New Century Excellent Talents in University (MOE): NCET-13-0226, Solid-gas reaction mechanism for the CO2 capture material in chemical looping gasification of coal, 2014-2016.
10. National Science Foundation of China (NSFC): 51576072, Study on nonlinear evolution characteristics of coal particle meso-structure under impact load and its influence on macroscopic comminution characteristics, 2016-2019.
11. National Key Research and Development Program: 2016YFE0204000, Joint R&D and demonstration of efficient and clean utilization technology of tropical agricultural and forestry wastes based on self-provided regenerative pyrolysis, 2017-2020.
12. National Key Research and Development Program: 2018YFE0127500, Joint research and development of high-value products from Asian-African agricultural and forestry wastes by concentrating solar energy synergism coupled with thermal storage and thermal decomposition, 2020-2023.
13. National Science Foundation of China (NSFC): U20A20303, Study on mechanism of pulverized coal combustion, pollutant generation, Heat transfer and thermal power conversion in supercritical CO2 power cycle, 2021-2024.
14. National Natural Science Foundation of China (NSFC): 52076097, Study on heat transfer/reaction mechanism and kinetics characteristics of typical biomass under photothermal/regenerative thermal decomposition, 2021-2024.