Professor
Tel (Office): (+86)27-87542417-8210
Email: shzhang@hust.edu.cn
Academic Areas: Thermal Power Engineering
Research Interests:
Efficient Thermochemical Conversion of Solid Fuel in Fluidized Bed;
Solid Waste Recycling and Energy Utilization;
Energy saving and emission reduction for furnaces and industrial boilers.
Academic Degrees
PhD, 1996/09–2001/12, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China;
Master, 1988/09–1991/06, Department of Power Engineering, Huazhong University of Science and Technology, Wuhan, China;
Bachelor, 1984/09–1988/06, School of Energy and Power Engineering, Huazhong University of Science and Technology, Wuhan, China.
Professional Experience
Deputy Director (2011.10–present); Institute of Carbon Capture, Utilization and Storage, Huazhong University of Science and Technology;
Professor, Doctoral Supervisor (2004.10–present); School of Energy and Power Engineering, Huazhong University of Science and Technology;
Associate Professor (1999.07–2004.09); Department of Power Engineering, Huazhong University of Science and Technology;
Lecturer (1993.10–1999.06); Department of Power Engineering, Huazhong University of Science and Technology;
Visiting Scholar (1996.08–1996.12); Institute of Materials and Technology, National Science Centre, France;
Teaching Assistant (1991.05–1993.09); Department of Power Engineering, Huazhong University of Science and Technology.
Selected Publications
1. Xinjie Liao, Jingai Shao, Shihong Zhang*, Xiangpeng Li, Effects of CO2 and CO on the reduction of NO over calcined limestone or char in oxy-fuel fluidised bed combustion,2019, IET Renewable Power Generation.
2. Zhang S#, Yang M, Shao J, et al. The conversion of biomass to light olefins on Fe-modified ZSM-5 catalyst: Effect of pyrolysis parameters. Science of The Total Environment. 2018;628-629: 350-357.
3. Zhang S#, Zhang H, Cai J, et al. Evaluation and Prediction of Cadmium Removal from Aqueous Solution by Phosphate-Modified Activated Bamboo Biochar[J]. Energy & Fuels, 2017.
4. Zhang X, Zhang S*, Yang H, et al. Generalized two-dimensional correlation infrared spectroscopy to reveal mechanisms of CO2 capture in nitrogen enriched biochar. Proceedings of the Combustion Institute. 2017;36: 3933-3940.
5. Yang J, Ma S, Zhao Y, Zhang J, Liu Z, Zhang S, Zhang Y, Liu Y, et al. Mercury emission and speciation in fly ash from a 35 MWth large pilot boiler of oxyfuel combustion with different flue gas recycle. Fuel. 2017;195: 174-181.
6. Mei Y, Che Q, Yang Q, Draper Christopher, Yang H, Zhang S, Chen H, et al. Torrefaction of different parts from a corn stalk and its effect on the characterization of products. Industrial Crops and Products. 2016;92: 26-33.
7. Xiong Zhang, Shihong Zhang*, High temperature ammonia modification of rice husk char to enhance CO2 adsorption: Influence of pre-deashing, RSC Advances, Dec 2015
8. Xiong Zhang, Shihong Zhang*, Effects of hydrofluoric acid pre-deashing of rice husk on physicochemical properties and CO2 adsorption performance of nitrogen-enriched biochar, Energy, Nov 2015.
9. Xiangpeng Li, Shihong Zhang*, Evolution of NOx Precursors during Rapid Pyrolysis of Coals in CO2 Atmosphere, Energy & Fuels, Otc 2015
10. Zhe Fu, Shihong Zhang*, MSW oxy-enriched incineration technology applied in China: Combustion temperature, flue gas loss and economic considerations, Waste Management, Feb 2015
11. Mei Y, Liu R, Yang Q, Yang, H, Shao J, Draper Christopher, Zhang S, Chen H, et al. Torrefaction of cedarwood in a pilot scale rotary kiln and the influence of industrial flue gas. Bioresource Technology. 2015;177: 355-360.
12. Gao Y, Yu B, Wang X, RMB Q, Yang H, Chen H, Zhang Shihong, et al. Orthogonal test design to optimize products and to characterize heavy oil via biomass hydrothermal treatment. Energy. 2015;88: 139-148.
13. Xiong Zhang, Shihong Zhang*, Nitrogen enriched biochar modified by high temperature CO2–ammonia treatment: Characterization and adsorption of CO2, The Chemical Engineering Journal, Dec 2014
14. Shenglei Du, Shihong Zhang, Effect of oxygen and steam on gasification of palm oil wastes, Waste and Resource Management, Feb 2014
15. Zixu Yang, Shihong Zhang*, Combustion behaviors of tobacco stem in a thermogravimetric analyzer and a pilot-scale fluidized bed reactor, Bioresource Technology, Jan 2012
16. Wang X, Chen H, Yang H, Ju F, Zhang S. Influence of pyrolysis condition and coal type on char gasification reactivity. Asia-Pacific Journal of Chemical Engineering. 2012;7: S171-S176.
17. Chen Y, Yang H, Wang X, Zhang S, Chen H. Biomass-based pyrolytic polygeneration system on cotton stalk pyrolysis: Influence of temperature. Bioresource Technology. 2012;107: 411-418.
18. Ju F, Chen H, Yang H, Wang X, Zhang S, Liu D. Experimental study of a commercial circulated fluidized bed coal gasifier. Fuel Processing Technology. 2010;91: 818-822.
19. Shi-hong Zhang*, Lu-ning Tian, Xian-rong Zhou, Han-ping Chen, Hai-ping Yang, Xian-hua Wang. Experimental study on ash-returned reactor of CFB atmospheric air gasifier. Proceedings of the 20th International Conference on Fluidized Bed Combustion. 2009.653-659.
20. Shi-hong Zhang*, Hai-hua Luo, Han-ping Chen, Hai-ping Yang, Xian-hua Wang. Reburning characteristics of residual carbon in fly ash from CFB boilers. Proceedings of the 20th International Conference on Fluidized Bed Combustion.2009: 1067-1072.
21. Chen H, Li B, Yang H, Yang G, Zhang S. Experimental investigation of biomass gasification in a fluidized bed reactor. Energy & Fuels. 2008; 22: 3493-3498.
22. Chen H, Yang H, Ju F, Wang J, Zhang S. The influence of pressure and temperature on coal pyrolysis/gasification. Asia-Pacific Journal of Chemical Engineering. 2007; 2: 203-212.
23. Shihong Zhang*, Research on the Properties of A Novel Granular Filter in Fluidized‐Bed, Asia-Pacific Journal of Chemical Engineering,v.7,No.3/4,1999:375-386.
Awards:
2013 National Science and Technology Progress Award (second prize): Key technology and application of high efficiency and low consumption coal-fired industrial Fluidized bed.
2005 Science Progress Award of Ministry of Education (First Prize): Separation technology and Application of down-ward exhaust cyclone separator under circulating fluidized bed.
1999 Science progress Award of Ministry of Education (First Prize: Study on aerodynamic force, heat transfer and N2O formation mechanism of fluidized bed Combustion.
2003 Hubei Excellent doctoral thesis Award: Study on a novel fluidized bed granular filter.
Courses Taught
Modern Power Plant Boiler (Boiler Principle)
Discipline-based introduction
National Scientific Research Projects
1. National Natural Science Foundation of China, 51976075, Biochar aging mechanism and its interaction with heavy metal fixation in soil, 2020/01-2023/12, 580,000 RMB, in charge.
2. National Key Research and Development Program, 2018YFB0605204, Collaborative control technology of organic pollutants and other pollutants, 2018/05-2020/044, 4.63 million RMB, in charge.
3. National Key Project, 2016YFB0600203-02, 660 MW High efficiency ultra-supercritical circulating fluidized bed boiler power generation technology research, 2016/07-2020/12, 900,000 RMB, in charge.
4. National Natural Science Foundation of China, 51576088, Heavy metal transport and fixation mechanism in biochar and soil mixed system, 2016/01-2019/12, 640,000 RMB, in charge.
5. National Natural Science Foundation of China, 51276075, Study on the mechanism of denitrification of carbon, sulfur and nitrogen pollutants by nitrogen-rich biomass char, 2013/01-2016/12, 800, 000 RMB, in charge.
Enterprise Cooperation Projects
1. Experimental and Simulation study on gasification of coal in oxygen-rich steam fluidized bed, 2019.4-2021.6, 1 million RMB.
2. Research on biomass fluidized bed gasifier Serialization Technology, 2018.4-20119.12, 1.5 million RMB.
3. CFD Simulation Design of Domestic waste Incinerator, 2017.5-2018.4, 350,000 RMB.
4. Research and design of methanol 1.25 MPa, 2 t/h saturated steam boiler, 2016.6-2017.12, 200,000 RMB.
5. Research and development of fluidized bed combustion technology of biomass derived high calorific value fuel for flue-cured tobacco, 2013.3-2014.12, 300,000 RMB.
6. Transformation of 75 t/h chain boiler into circulating fluidized bed boiler technology, 2008.12 -- 2011.12, 1.06 million RMB.
7. Double bed parallel fluidized bed ultra-high temperature flue gas generation Technology, 2005.5-2008.12, 550,000 RMB.
8. 35 t/h CFB boiler improvement technology, 2006.8-2008.12, 680,000 RMB.
9. Design and development of WGZ35/3.82-27 type oil-fired boiler to coal-fired circulating fluidized bed boiler, 2002.5-2004.12, 400,000 RMB.
10. Development of comprehensive modification technology for SHFX20-1.25-LII boiler, 1999.12- 2002.4, 960,000 RMB.