1991年于武汉城市建设学院本科，获得学士学位；1996年于华中理工大学 ，硕士研究生，获得硕士学位 （导师 郑贤德）；2003年于华中科技大学，博士研究生，获得博士学位（导师郑楚光、周力行）；2012.03—2013.03，作为访问学者赴美国南加州大学交流访问一年（导师Combust and Flame 主编Fokion Egolfopoulos）。

1.富集CO2的oxy-fuel燃烧和oxy-steam燃烧 2.先进的MILD燃烧 3.火焰传播速度以及着火、熄火机理 4.燃烧过程数值模拟 5.小型高效低污染燃烧装置的研发

论文发表： [1]The chemical and physical effects of CO2 on the homogeneous and heterogeneous ignition of the coal particle in O2/CO2 atmospheres,36th International Symposium on Combustion, oral presentation [2]Effect of steam on ignition of pulverized coal particles in oxy-fuel combustion in a drop tube furnace,Fuel, SCI 2016 [3]Ignition behaviors of pulverized coal particles in O2/N2 and O2/H2O mixtures in a drop tube furnace using flame monitoring techniques, Proceedings of the Combustion Institute, SCI 2015 [4]The chemical mechanism of the effect of CO2 on the temperature in methane oxy-fuel combustion, Proceedings of the Combustion Institute, SCI 2015 [5]Comprehensive investigation of process characteristics for oxy-steam combustion power plants,Energy Conversion and Management, SCI 2015 [6]The characteristics and mechanism of the NO formation during oxy-steam combustion,Fuel, SCI 2015 [7]Numerical and Experimental Studies of NO Formation Mechanisms under Methane Moderate or Intense Low-Oxygen Dilution (MILD) Combustion without Heated,Energy & Fuels, SCI 2015 [8] Numerical and experimental studies on the ignition of pulverized coal in O2/H2O atmospheres, Fuel, SCI 2014 [9] Characteristics and mechanistic analysis of CO formation in MILD regime with simultaneously diluted and preheated oxidant and fuel, Fuel, SCI 2014 [10] The chemical mechanism of steam’s effect on the temperature in methane oxy-steam combustion, International Journal of Heat and Mass Transfer, SCI 2014 [11] Numerical research on the homogeneous/heterogeneous ignition process of pulverized coal in oxy-fuel combustion, International Journal of Heat and Mass Transfer, SCI 2014 [12] A study of combustion characteristics of pulverized coal in O2/H2O atmosphere, Fuel, SCI 2013 [13] A pilot scale study on co-capture of SO2 and NOx in O2/CO2 recycled coal combustion and techno-economic, SCIENCE CHINA-TECHNOLOGICAL SCIENCES, SCI 2009 [14] Lattice Boltzmann scheme for simulating thermal micro-flow, Physica A, SCI 2007 [15] Thermal lattice-BGK model based on large-eddy simulation of turbulent natural convection due to internal heat generation, International Journal of Heat and Mass Transfer, SCI 2006