Feng Junxiao
Education & Working Experience
2003.09-Now Professor, Vice Director, Dept. of Thermal Eng., USTB
1993.09-2003.08 Associate professor, Dept. of Thermal
1987.09-1993.08 Lecturer, Dept. of Thermal
1982.08-1987.08 Assistant, Dept. of Thermal Eng., USTB
1999.09- 2004.06 Doctor, Dept. of Thermal Eng., USTB
1990.10- 1992.03 Senior Visiting Scholar, University Stuttgart, Germany.
1983.09- 1986.06 Master, Dept. of Thermal Eng., BISI
1978.09- 1982.07 Bachelor, Graduated from Department of metallurgy, BISI
Teaching
1. Thermal technology in green steel manufacturing
2. Energy and environmental engineering
3.Combustion pollution and control
4.Thermal equipment design
Research projects
1. Research on energy-saving and low pollutant emission in GKC, supported by National High-Tech Research and Development 863 program of China(Z2007AA05Z215), 2007.01-2010.12.
2. Technical requirements of measurement and verification of energy savings,slab reheating furnace system(2012BAB18B01-01),supported by National Science and Technology Support Plan, 2012.01-2014.12.
3. Research on new generation of radiant tube(2011BAE13B09), supported by National Science and Technology Support Plan, 2011.01-2015.06.
4. Technology and demonstration of multi pollutant medium and low temperature collaborative catalytic purification(2017YFC0210303),supported by National key Research and Development Program of China,2017.07-2020.12.
5. Construction and evaluation of energy saving and emission reduction system in the process of steel-chemical production-building materials coproduction(2016YFB0601305),supported by National key Research and Development Program of China, 2016.07-2020.12
6. Development and application of flameless combustion regenerative high temperature heating
furnace based on intelligent control(BE2015206), supported by Key R&D plan of Jiangsu Province-industry prospect and common key technology,2015.06-2017.06.
7. Research and demonstration design of alternative system of domestic hot water based on phase change heat storage, supported by Shuntiandi International Energy Technology Co.,Ltd, 2020.04-2021.12.
8. Development and application of U-type radiant tube with large flue gas reflux and low nitrogen combustion, supported by ANGANG Steel Company Limited,2018.11-2020.06.
9. Energy efficiency test and evaluation of roller hearth furnace,supported by Zhejiang Songyang Xiping Industrial Park Development Co.,Ltd.2015.03-2016.03.
10. Study on continuous reduction device and preheating system without heat source for fine powder ore(4500446248),supported by Gansu Jiugang group Hongxing Steel Co.,Ltd. 2014.11-2015.11.
11. Stress analysis and experimental study of large diameter direct buried hot water pipeline(2014-257),Ministry of science and technology of Beijing Thermal Power Group 2014.01-2016.12.
12. Simulation of solid state fermentation(2014-693),supported by Institute of nuclear energy and new energy technology, Tsinghua University, 2014.01-2015.12.
13. Test and analysis of slab heating quality and energy saving and consumption reduction in reheating furnace, supported by Jilin Jianlong iron and Steel Co., Ltd.2012.12-2013.10.
Social/ Academic Work
1. Expert of China Circular Economy Association
2. Member of thermodynamics and energy utilization Committee of China Energy Society
3. Member of science and Technology Committee of China Urban Gas Association
4. Expert of resources network of China Federation
5. Expert of national science and Technology Progress Award
Academic Achievements
1. The second prize of scientific and technological progress awarded by State Security Administration of the PRC in 2004(The technology of Oxygen production by pressure swing adsorption and study on safety guarantee tunnel construction in high altitude)
2. The second prize of scientific and technological progress awarded by Ministry of Education of PRC in 2004 (The technology of Oxygen production by pressure swing adsorption in high altitude and application in Fenghuoshan tunnel on Qinghai-Tibet railway )
3. The third prize of scientific and technical progress of metallurgy awarded by Shandong Metallurgical Industry Association in 2003:( Preparation and application of regenerative ladle preheating system)
4. The second prize of scientific and technological progress awarded by Department of science and technology of Shanxi Province in 2003(Preparation and application of Oxygen Making Station for Tuotuo river on Qinghai-Tibet railway )
5. Silver Prize of the fourteenth National Fair for Invention in 2003(Preparation and application of oxygen making and supply system for Fenghuoshan tunnel on Qinghai-Tibet railway )
6. The second prize of scientific and technological progress awarded by China Railway Association in 2003:(Preparation and application of oxygen making and supply system for Fenghuoshan tunnel on Qinghai-Tibet railway )
7. The first prize of scientific and technological progress awarded by China Railway Construction Corporation in 2003:(Preparation and application of oxygen making and supply system for Fenghuoshan tunnel on Qinghai-Tibet railway )
8. One of the ten science and technology progress,awarded by Ministry of Education of PRC in 2002: (Preparation and application of oxygen making and supply system for Fenghuoshan tunnel on Qinghai-Tibet railway )
Main journal publications:
1. Xu Q, Wang K, Feng J*, et. al. A comparative investigation on the effect of different nanofluids on the thermal performance of two-phase closed thermosyphon [J]. International journal of heat and mass transfer, 2020,149: 119-189.
2. Xu Q, Zou Z, Chen Y, et al. Performance of a novel-type of heat flue in a coke oven based on high-temperature and low-oxygen diffusion combustion technology [J].Fuel,2020,267:117160.
3. Xu Q, Feng J*,Liu L, et al. Analysis of mechanical-fluid-thermal performance of heat pipeline system with structural deformation effects [J]. International journal of heat and mass transfer, 2019,128:12-23.
4. Xu Q, Feng J*, et al. Influence of the operating parameters and nozzle characteristics on flat double-P radiant tube performance [J]. Applied Thermal Engineering, 2019, 155: 175-184.
5. Xu Q, Feng J*, Zhou J, et al. Performance analysis of a novel W-type radiant tube [J]. Applied Thermal Engineering, 2019, 152: 482-489.
6. Jing-Zhi Zhou, Jun-Xiao Feng*, Qian Xu, Yu-Jie Zhao.A much cheaper method to separate ethanol after solid-state fermentation process in renewable energy production[J]. Renewable Energy,123 (2018) 675-682.
7. Xu Q, Feng J*, Zhou J, et al. Study of a new type of radiant tube based on the traditional M-type structure [J]. Applied Thermal Engineering, 2019, 150: 849-857.
8. Xu Q, Feng J*, Zhang S. Effects of different loads on structure stress of ‘‘L”-type large-diameter pipeline under burying and trench conditions based on fluid–structure–heat coupling [J]. International journal of heat and mass transfer ,2017,115:387-397.
9. Xu Q, Feng J*,Zhang S. Combined effects of different temperature and pressure loads on the “L”-type large-diameter buried pipeline [J]. International journal of heat and mass transfer , 2017,111:953–961.
10. Xu Q, Feng J*, Zhang S. Effects of different loads on structure stress of “L”-type large-diameter buried pipe network based on fluid–structure–heat coupling [J]. International communications in heat and mass transfer, 2017, 86: 222-230.
11. Xu Q, Feng J*. Analysis of nozzle gas speed on the performance of the zoned and staged gas-fired radiant tube [J]. Applied Thermal Engineering, 2017, 118: 734-741.
12. Xu Q, Feng J*, Zhang S. Influence of end side displacement load on stress and deformation of ‘‘L”-type large-diameter buried pipe network [J]. Applied Thermal Engineering, 2017, 126: 245-254.
13. Junxiao Feng,Yanmei Chen,Jingzhi Zhou. Optimal control of iron ore pellet production in a Grate-Kiln-Cooler system.Proceedings of the ASME 2016 Summer Heat Transter Conference.Washington,USA,2016.07.10-07.14
14. Xu Q, Feng J*. Analysis of nozzle designs on zoned and staged double P-type gas-fired radiant tube [J]. Applied Thermal Engineering, 2016, 114: 44-50.
15. Yi Man, Junxiao Feng*, Fujie Li, Qi Ge, Yanmei Chen, Jinngzhi. Zhou. Influence of temperature and time on reduction behavior in iron ore-coal composite pellets [J]. Powder Technology,2014.256:361-366.
16. Yi Man, Junxiao Feng, Qi Ge, Fujie Li. Weight loss and direct reduction characteristics of iron ore-coal composite pellets[J]. Journal of Iron and Steel Research, International, 2014.21(12):1090 -1094.
17. Yi Man, Junxiao Feng, Qi Ge, Fujie Li. Thermogravimetric study of direct reduction behavior in iron ore/coal mixture. Energy Education Science and Technology Part A: Energy Science and Research, 2014, 32(5): 4337-4344.
18. Yi Man, Junxiao Feng, Qi Ge, Fujie Li. Effect of particle size on reduction behavior in iron ore-coal composite pellets. Journal of Chemical and Pharmaceutical Research, 2014.6(7): 2484-2490.
19. Feng Junxiao, Cheng Qibo and Yu Sijing. Numerical Simulation on Process of Flow and Heat Transfer in Upright Magnesium Reducing Furnace. 2011 International Conference on Manufacturing Science and Technology, ICMST 2011, Singapore,September 16, 2011-September 18, 2011. Advanced Materials Research, 2012,Volume:383-390, Pages: 6657-6662.
20. FENG Jun-xiao,XIE Zhi-yin,CHEN Yan-mei. Temperature Distribution of Iron Ore Pellet Bed in Grate[J] . Journal of Iron and steel research international, 2012,Vol. 19(2):7-11.
21. FENG Junxiao,Liang Kaili,SUN Zhibin. Cooling process of iron ore pellet in annular cooler. International Journal of Minerals, Metallurgy and Materials,Vol18,No.3,june,2011. P285 -291.
22. FENG Jun-xiao, ZHANG Yu, ZHENG Hai-wei, et al. Optimization of Pellet Production Process Parameters in Grate Using Simulation Results. Journal of Shanghai Jiaotong University, Vol 16, No.2 April 2011 P219-223
23. FENG Jun-xiao,XIE Zhi-yin,LV You-yang, et al. Optimization of Pellet Induration Process Parameters in Rotary Kiln Using Simulation Results. Journal of Shanghai Jiaotong University, Vol 16, No.3 June 2011 P307-311.
24. FENG Jun-xiao, LIANG Kai-li, ZHANG Cai, et al. Development and Application of Thermal Mathematical Model of Iron Ore Pellet Bed in Grate. Journal of Shanghai Jiaotong University, Vol 16, No.3 June 2011 P312-315.
25. Zhang Y,Feng J*,Xu J, et al. Energy and exergy analyses of a mixed fuel-fired grate-kiln for iron ore pellet induration[J]. Energy Conversion & Management, 2011, 52(5). 2064-2071.
26. Junxiao Feng, Yu Zhang, Haiwei Zheng, Xiaoyan Xie, Cai Zhang. Drying and preheating processes of iron ore pellet in traveling grate. International Journal of Minerals, Metallurgy and Materials,Vol17,No5,October,2010. P535-540.
Books:
1. Energy and Environment,Metallurgical industry press,2011.
2. Mass, heat and exergy balance of grate kiln ring cooler system,Metallurgical industry press,2013.
Patents:
1. Technology and equipment of sponge iron production(95102176)
2. An oxygen enriched production machine(00200491)
3. An air conditioning oxygen generator(00200495)
4. A method of producing direct reduced iron with iron pellet containing carbon(02120742)
5. A small smokeless coal burning device(2004 2 0007047)
6. An ironmaking method and equipment with smelting in flame furnace and reduction in rotary hearth furnace(2004 1 0008754)
7. A PSA oxygen plant suitable for high altitude area(2003 1 0122470)
8. A vertical magnesium reduction furnace with high temperature air and low oxygen combustion(2007 2 0173586.7)
9. A dispersive oxygen supply system and method for tunnel face in high altitude area (2007 1 0118442)
10. A tunnel oxygen bar car(200720169584)
11. An experimental method and device for the drying process of iron ore pellets( 2009 1 0087309.8)
12. An experimental method and device for roasting process of iron ore pellets(2009 1 0087236.2)
13. High concentration pulverized coal burner(201210444261.3)
14. A flat double P type radiation tube(2013 1 0714351.4)
15. A device and method of gas solid jet granulation of blast furnace slag(2013 1 0020115.2)
16. A heating device of gas double circulation radiant tube(2013 1 0190177.8)
17. A residual heat recovery device of spiral vibration bed for the granulation process of blast furnace slag(2013 1 0020295.4)
18. A radiant tube burner(2014 1 0374421.0)
19. A self preheating radiant tube burner(2014 2 0430454.8)