Lecturer

Phone: no data

Email: ffwang@hust.edu.cn

Academic Areas: Heating ventilation and air conditioning/Combustion

Research Interests:

Academic Degrees

2009.09-2014.07, Ph.D. Candidate, Energy & Resources Engineering, Peking University

2005.09 - 2009.07, B.E. in Building Environment & equipment engineering,  Huazhong University of Science and Technology

Professional Experience

2008.09 - 2009.08, Research assistant, State Key Laboratory of Coal combustion, Huazhong University of Science and Technology

Selected Publications

1. Feifei Wang, Pengfei Li, Jianchun Mi, Jinbo Wang, Minyi Xu; Chemical kinetic effect of hydrogen addition on ethylene jet flames in a hot and diluted coflow, Int. J. Hydrogen Energy, 2015, 40(46), 16634-16648

2. Feifei Wang, Pengfei Li, Jianpeng Zhang, Zhenfeng Mei, Jianchun Mi, Jinbo Wang; Routes of formation and destruction of NOx in CH4/H2 jet flames in a hot coflow, J. Hydrogen Energy, 2015, 40(18): 6228-6242.

3. Zhenfeng Mei, Jianchun Mi, Feifei Wang, Pengfei Li, Jianpeng Zhang. Chemical flame length of a methane jet into oxidant stream. Flow Turbulence Combust, 2015, doi: 10.1007/s10494-015-9598-0.

4. Feifei Wang, Pengfei Li, Zhenfeng Mei, Jianpeng Zhang, Jianchun Mi; Combustion of CH4/O2/N2 combustion in a well stirred reactor, Energy, 2014, 72(1), 242-253.

5. Feifei Wang, Pengfei Li, Zhenfeng Mei, Jianchun Mi. Auto- and forced-ignition temperatures of diffusion flames obtained through the steady RANS modeling, Energy and fuels, 2014, 28(1), 666–677.

6. Pengfei Li, Feifei Wang, Jianchun Mi, B. B. Dally, Zhenfeng Mei, Jianpeng Zhang, A. Parente, Mechanisms of NO formation in MILD combustion of CH4/H2 fuel blends, Int. J. Hydrogen Energy, 2014, 39(33), 19187-19203.

7. Pengfei Li, Feifei Wang, Jianchun Mi, B. B. Dally, Zhenfeng Mei; MILD Combustion under different premixing patterns and characteristics of the reaction regime. Energy and fuels, 2014, 28 (3), 2211–2226.

8. Pengfei Li, Feifei Wang, Yaojie Tu, Zhenfeng Mei, Jianpeng Zhang, Ying Zheng, Hao Liu, Jianchun Mi, Chuguang Zheng. MILD Oxy-combustion characteristics of light oil and pulverized coal in a pilot-scale furnace. Energy and fuels, 2014, 28(2), 1524-1535.

9. Zhenfeng Mei, Pengfei Li, Feifei Wang, Jianpeng Zhang, Jianchun Mi; Influences of reactant injection velocities on moderate or intense low-oxygen dilution coal combustion, Energy and fuels, 2014, 28 (1), 369–384.

10. Feifei Wang, Jianchun Mi, Pengfei Li; Classification of combustion regimes of a jet diffusion flame in hot coflow, Energy and fuels, 2013, 27, 3488-3498.

11. Zhenfeng Mei, Feifei Wang, Pengfei Li, Jianchun Mi; Diffusion flame of a CH4/H2 jet in a hot coflow: effects of coflow oxygen and temperature, Chinese J. Chemical Engineering, 2013, 21(7), 787–799.

12. Pengfei Li, B. Dally, Jianchun Mi, Feifei Wang; MILD oxy-combustion of gaseous fuels in a laboratory-scale furnace, Combustion and flame, 2013, 160 (5), 933-946.

13. Feifei Wang, Jianchun Mi, Pengfei Li, Chuguang Zheng; Diffusion flame of a CH4/H2 jet in hot low-oxygen coflow, Int. J. Hydrogen Energy, 2011, 35(11), 9267-9277.

14. Jianchun Mi, Feifei Wang, Pengfei Li, B. Dally, Chuguang Zheng; Modified vitiation in a moderate or intense low-oxygen dilution (MILD) combustion furnace, Energy and Fuels, 2012, 26(1), 265-277.

15. Zhenfeng Mei, Jianchun Mi, Feifei Wang; Dimensions of CH4-jet flame in hot O2/CO2 coflow, Energy and fuels, 2012, 26, 3257-3266.

16. Pengfei Li, Jianchun Mi, B. Dally, Feifei Wang; Progress and recent trend in MILD combustion, Science in China Series E: Technological Sciences, 2011, 41, 1-15.

17. Pengfei Li, Jianchun Mi, B. Dally, R. Craig, Feifei Wang; Premixed MILD combustion of a single jet burner in a laboratory-scale furnace, Energy and fuels, 2011, 25(7), 2782-2793.

 

Conference Proceedings

1. Feifei Wang, Jianchun Mi, Pengfei Li (2013); Influence of fuel injection angle and position on the MILD combustion, Proceeding of Chinese Engineering Thermophysics, Chongqing, 2013.11;

2. Feifei Wang, Jianchun Mi, Pengfei Li, Zhenfeng Mei (2013); Pathway analysis of CH4 combustions, 9th Asia-Pacific Conference on Combustion. Gyeongju, Korea. 2013.05.

3. Feifei Wang, Jianchun Mi, Pengfei Li, Zhenfeng Mei (2012); Influence of reactants condition on Moderate or Intense Low-Oxygen Dilution (MILD) Combustion in a recuperative Furnace, The 4th Energy and Environmental Workshop, Taipei, 2012.3.

4. Feifei Wang, Jianchun Mi, Pengfei Li, C. Zheng (2011); Diffusion flame of a CH4/H2 jet in hot low-oxygen coflow, The 8th Asia Pacific Conference on Sustainable Energy & Environmental Technologies, Adelaide, Australia, 2011.7.

5. Feifei Wang, Jianchun Mi, Pengfei Li (2011). Effect of Heat Extraction on the Premixed Combustion. Proceeding of Chinese Engineering Thermophysics. Guangzhou, 2010.12;

6. Feifei Wang, Jianchun Mi, Pengfei Li (2010); Characteristics of MILD combustion produced by a parallel jet burner, The 33rd International Symposium on Combustion, Beijing, 2010.8.

7. Jianchun Mi, Feifei Wang, Pengfei Li, B B. Dally, C. Zheng (2011); Modified Vitiation in a Moderate or Intense Low-Oxygen Dilution (MILD) Combustion Furnace, 2011 Sino-Australia Symposium on Advanced Coal and Biomass Utilization Technology, Wuhan, China, 2011.12.

8. Jianchun Mi, Feifei Wang, Pengfei Li (2010); Effects of reactant injection conditions on diffusion combustion of natural gas in a laboratory-scale combustor, The 40th Annual Australasian Chemical and Process Engineering Conference, Adelaide, Australia, 2010.9;

 

Courses Taught

1. Pollution Control of Indoor & Clean Technology;

2. Computational fluid dynamics & its applications.

Project

1. Investigation of the characteristics of the heterogeneous reactions and fuel-NOx mechanisms for pulverized coal MILD combustion: The National Natural Science Foundation of China Youth Fund Project (51506069)

2. Analysis of the deposition and dynamic characteristics of the micro/fine particle in the ventilation duct, the Fundamental Research Funds for the Central Universities (2016YXMS286)

3. The dynamic pattern and the control strategy of the micro/fine particle in the closed rooms, the Fundamental Research Funds for the Central Universities (2015TS122)

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