教育及工作经历

1991年9月～1995年7月 华中理工大学动力系，本科毕业；

1995年8月～1999年8月 巴陵石化公司岳阳石化总厂热电厂，锅炉车间技术员；

1999年9月～2004年5月 华中科技大学能源与动力工程学院，获博士学位；

2004年6月～2006年7月 华中科技大学力学系博士后流动站，博士后；

2006年1月～7月 东北师范大学留日预备学校，日语培训；

2006年10月～2008年10月 日本东北大学，博士后；

2009年2月～ 2015年10月 华中科技大学，副教授；

2011年4月～ 2014年4月，工程热物理系副主任；

2011年5月～ 华中科技大学，博士生导师；

2013年10月～ 2013年12月 日本东北大学，访问学者；

2015年11月～  华中科技大学，教授

研究方向

基础研究：微尺度燃烧；催化燃烧；多孔介质燃烧；强化传热理论；
技术研发：电子器件散热技术；微型热电装置；新型燃气灶；加热-不燃烧卷烟器具；储能技术；

科研项目

纵向课题：
1. 国家自然科学基金面上项目（在研）；
2. 华中科技大学博士论文创新基金（在研）；
3. 湖北省自然科学基金（已结题）；
4. 教育部留学回国人员科研启动基金（已结题）；
5. 武汉市科技攻关重点基金（已结题）；
6. 重庆大学教育部重点实验室开放基金（已结题）；
7. 煤燃烧国家重点实验室开放基金（已结题）；
8. 华中科技大学自主创新基金（已结题）；
9. 华中科技大学GF创新基金（已结题）；

横向课题：
1. 湖北中烟工业有限责任公司委托项目（在研）；
2. 佛山市顺德区美的洗涤电器制造有限公司（在研）；
3. 湖北迪峰换热器股份有限公司委托项目（在研）；
4. 四川空分设备有限责任公司委托项目1项（已结题）；

代表性论文与专利

著作：
[1] 刘伟，范爱武，黄晓明，多孔介质传热传质理论与应用，科学出版社，2006
[2] 范爱武，姚洪，刘伟，微小尺度燃烧，科学出版社，2012
[3] 黄晓明，刘志春，范爱武，工程热力学，华中科技大学出版社，2011
[4] 黄晓明，许国良，刘志春，范爱武，方海生，工程热力学，中国电力出版社，2015
[5] 邹春，王兆文，娄春，范爱武，鲁昊，基础燃烧学，华中科技大学出版社，2020

国际期刊论文：
[74]J.L. Wan, A.W. Fan*, Recent progress in flame stabilization technologies for combustion-based micro energy and power systems, Fuel, 286: 119391, 2021
[73]X. Kang*, Y.C. Deng, J.Y. Wang, A.W. Fan*, A versatile numerical tool for simulating combustion features at small-scales, Journal of Thermal Science, 1: 343-361, 2021
[72]S.X. Wang, A.W. Fan*, Combustion regimes of syngas flame in a micro flow reactor with controlled temperature profile: A numerical study. Combustion and Flame, 230: 111457, 2021
[71]S.X. Wang, A.W. Fan*, Effects of wall temperature profile on weak flame structure of stoichiometric dimethyl ether/air mixture in a micro flow reactor, Fuel, 294: 120554, 2021
[70]L.H. Li, G.Y. Yang, A.W. Fan, Non-premixed combustion characteristics and thermal performance of a catalytic combustor for micro-thermophotovoltaic systems, Energy, 214: 118893, 2021
[69]J.J. Hong, M. Zhao, L. Liu, Q.X, Shi, X. Xiao, A.W. Fan*, Improvement of the combustion completeness of hydrogen jet flames within a mesoscale tube under zero gravity, Energies, 14: 4552, 2021
[68]L.H. Li, A.W. Fan*, A numerical study on non-premixed H2/air flame stability in a micro-combustor with a slotted bluff-body, International Journal of Hydrogen Energy, 46: 2658-2666, 2021
[67]M. Zhao, L. Liu, A.W. Fan*, Comparison of combustion efficiency of micro hydrogen jet flames confined in cylindrical tubes of different diameters, Chemical Engineering & Processing, 153: 108000, 2020
[66]M. Zhao, A.W. Fan*, Buoyancy effects on hydrogen diffusion flames confined in a small tube, International Journal of Hydrogen Energy, 45: 19926-19935, 2020
[65]Y. Xiang, S.X. Wang, Z.L. Yuan, A.W. Fan*, Effects of channel length on propagation behaviors of non-premixed H2-air flames in Y-shaped micro combustors, International Journal of Hydrogen Energy, 45: 20449-20457, 2020
[64]Y. Xiang, A.W. Fan*, A numerical study on diffusion H2/air flames in Y-shaped mesoscale combustors, Fuel, 275: 117935, 2020
[63]Z.L. Yuan, A.W. Fan*, The effects of aspect ratio on CH4/air flame stability in rectangular mesoscale combustors, Journal of the Energy Institute, 93:792-801, 2020
[62]L. Liu, M. Zhao, Y.K. Chen, A.W. Fan, D. Li, A numerical investigation in the buoyancy effects on micro jet diffusion flame, Journal of Central South University, 27: 867-875, 2020
[61]L. Liu, L. Zhao, A.W. Fan, Effects of wall thickness and material on flame stability in a planar micro-combustor, Journal of Central South University, 26: 2224−2233, 2019
[60]L.H. Li, S.X. Wang, L. Zhao, A.W. Fan*, A numerical investigation on non-premixed catalytic combustion of CH4/(O2+N2) in a planar micro-combustor, Fuel, 255:115823, 2019
[59]S.X. Wang, Z.L. Yuan, A.W. Fan*, A modified two-dimensional numerical method for prediction of outer wall temperature distribution of rectangular micro-combustors, International Journal of Hydrogen Energy, 44: 16983-16990, 2019
[58]A.W. Fan*, L.H. Li, W. Yang, Z.L. Yuan, Comparison of combustion efficiency between micro combustors with single- and double-layered walls: A numerical study, Chemical Engineering and Processing, 137: 39-47, 2019.
[57]S.X. Wang, Z.L. Yuan, A.W. Fan*, Experimental investigation on non-premixed CH4/air combustion in a novel miniature Swiss-roll combustor, Chemical Engineering and Processing, 139: 44-50, 2019
[56]L.H. Li, W. Yang, A.W. Fan*, Effect of the cavity aft ramp angle on combustion efficiency of lean hydrogen/air flames in a micro cavity-combustor, International Journal of Hydrogen Energy, 44: 5623-5632, 2019
[55]Y. Xiang, Z.L. Yuan, S.X. Wang, A.W. Fan*, Effects of flow rate and fuel/air ratio on propagation behaviors of diffusion H2/air flames in a micro combustor, Energy, 179: 315-322, 2019
[54]W. Yang, L.H. Li, A.W. Fan*, H. Yao, Effect of oxygen enrichment on combustion efficiency of lean H2/N2/O2 flames in a micro cavity-combustor, Chemical Engineering and Processing, 127: 50-57, 2018
[53]L.H. Li, Z.L. Yuan, Y. Xiang, A.W. Fan*, Numerical investigation on mixing performance and diffusion combustion characteristics of H2 and air in planar micro-combustor, International Journal of Hydrog Energy, 43: 12491-12498, 2018.
[52]S.X. Wang, L.H. Li, Y.F. Xia, A.W. Fan*, Hong Yao, Effect of a catalytic segment on flame stability in a micro combustor with controlled wall temperature profile, Energy, 2018, 165: 522-531
[51]S.X. Wang, L.H. Li, A.W. Fan*, Suppression of flame instability by a short catalytic segment on the wall of a micro channel with a prescribed wall temperature profile, Fuel, 2018, 234: 1329-1336
[50]D.G. Ning, S.X. Wang, A.W. Fan*, H. Yao, A numerical study of the effects of CO2 and H2O on the ignition characteristics of syngas in a micro flow reactor, International Journal of Hydrogen Energy, 43: 22649-22657, 2018
[49]X. Xiang, J.S. Yang, A.W. Fan*, W. Liu, A comparison between cooling performances of water-based and galliumbased micro-channel heat sinks with the same dimensions, Applied Thermal Engineering, 137: 1-10, 2018
[48]A.W. Fan*, Y. Xiang, W. Yang, L.H. Li, Enhancement of hydrogen combustion efficiency by helium dilution in a micro-combustor with wall cavities, Chemical Engineering and Processing, 130: 201-207, 2018
[47]D.G. Ning, A.W. Fan*, H. Yao, Effects of fuel composition and strain rate on NO emission of premixed counter-flow H2/CO/air flame, International Journal of Hydrogen Energy, 42: 10466–10474, 2017
[46]D.G. Ning, Y. Liu, Y. Xiang, A.W. Fan*, Experimental investigation on non-premixed methane/air combustion in Y-shaped meso-scale combustors with/without fibrous porous media, Energy Conversion and Management, 138: 22-29, 2017
[45]D.G. Ning, A.W. Fan*, H. Yao, Effect of radiation emission and reabsorption on flame temperature and NO formation in H2/CO/air counterflow diffusion flames, International Journal of Hydrogen Energy, 42: 22015–22026, 2017
[44]A.W. Fan*, H. Zhang, J.L. Wan, Numerical investigations on flame blow-off limit of a novel microscale Swiss-roll combustor with a bluff-body, Energy, 123: 252-259, 2017
[43]X. Xiang, Y. Fan, A.W. Fan, W. Liu, Cooling performance optimization of liquid alloys GaIny in microchannel heat sinks based on back-propagation artificial neural network, Applied Thermal Engineering, 127: 1143-1151, 2017
[42]W. Yang, Y. Xiang, A.W. Fan*, H.g Yao, Effect of the cavity depth on the combustion efficiency of lean H2/air flames in a micro combustor with dual cavities, International Journal of Hydrogen Energy, 42: 14312–14320, 2017
[41]J.L. Wan, A.W. Fan*, H. Yao, Effect of the length of a plate flame holder on the flame blowout limit in a micro-combustor with preheating channels, Combustion and Flame, 170:53-62, 2016
[40]Y. Liu, A.W. Fan*, H. Yao, W. Liu, A numerical investigation on the effect of wall thermal conductivity on flame stability and combustion efficiency in a mesoscale channel filled with fibrous porous medium, Applied Thermal Engineering, 101: 239-246, 2016
[39]Y. Liu, D.G. Ning, A.W. Fan*, H. Yao, Experimental and numerical investigations on flame stability of methane/air mixtures in mesoscale combustors filled with fibrous porous media, Energy Conversion and Management, 123: 402-409, 2016
[38]W. Yang, A.W. Fan*, H. Yao, Effect of inlet temperature on combustion efficiency of lean H2/air mixtures in a micro-combustor with wall cavities, Applied Thermal Engineering, 107: 837-843, 2016
[37]J.L. Wan, A.W. Fan*, H. Yao, W. Liu, Experimental investigation and numerical analysis on the blow-off limits of premixed CH4/air flames in a mesoscale bluff-body combustor, Energy, 113: 193-203, 2016
[36]W. Yang, A.W. Fan*, H. Yao, W. Liu, Effect of reduced pressures on the combustion efficiency of lean H2/air flames in a micro-cavity combustor, International Journal of Hydrogen Energy, 41: 15354-15361, 2016
[35]J. Guo, Y.X. Yan, W. Liu, F.M. Jiang*, A.W. Fan*, Enhancement of laminar convective heat transfer relying on excitation of transverse secondary swirl flow, International Journal of Thermal Sciences, 87:199-206, 2015
[34]J.L. Wan, A.W. Fan*, Y. Liu, H. Yao, W. Liu, X.L. Gou, D.Q. Zhao, Experimental investigation and numerical analysis on flame stabilization of CH4/air mixture in a mesoscale channel with wall cavities, Combustion and Flame, 162: 1035-1045, 2015
[33]Y.H. You, A.W. Fan*, Y.M. Liang, S.P. Jin, W. Liu, F.Q. Dai, Entropy generation analysis for laminar thermal augmentation with conical strip inserts in horizontal circular tubes, International Journal of Thermal Sciences, 88: 201-214, 2015
[32]J.L. Wan, A.W. Fan*, H. Yao, W. Liu, Effect of thermal conductivity of solid wall on combustion efficiency of a micro-combustor with cavities, Energy Conversion and Management, 96: 605-612, 2015
[31]W. Yang, A.W. Fan*, J.L. Wan*, W. Liu, Effect of external surface emissivity on flame-splitting limit in a micro-cavity combustor, Applied Thermal Engineering, 83: 8-15, 2015
[30]J.L. Wan, A.W. Fan*, H. Yao, W. Liu,  Flame-anchoring mechanisms of a micro cavity-combustor for premixed H2/air flame, Chemical Engineering Journal, 275: 17-26, 2015
[29]J.L. Wan, A.W. Fan*, Effect of channel gap distance on the flame blow-off limit in mesoscale channels with cavities for premixed CH4/air flames, Chemical Engineering Science, 132: 99-107, 2015
[28]J.L. Wan, A.W. Fan*, Effect of solid material on the blow-off limit of CH4/air flames in a micro combustor with a plate flame holder and preheating channels, Energy Conversion and Management, 101: 552-560, 2015
[27]J.L. Wan, A.W. Fan*, H. Yao, W. Liu, A non-monotonic variation of blow-off limit of premixed CH4/air flames in mesoscale cavity-combustors with different thermal conductivities, Fuel, 159: 1-6, 2015
[26]Y. Liu, A.W. Fan*, H. Yao, W. Liu, Numerical investigation of filtration gas combustion in a mesoscale combustor filled with inert fibrous porous medium, International Journal of Heat and Mass Transfer, 91: 18-26, 2015
[25]J.L. Wan, A.W. Fan*, H. Yao, W. Liu, Effect of pressure on the blow-off limits of premixed CH4/air flames in a mesoscale cavity-combustor, Energy, 91: 102-109, 2015
[24]A.W. Fan*, J.L. Wan, Y. Liu, et al., Effect of bluff body shape on the blow-off limit of hydrogen/air flame in a planar micro-combustor, Applied Thermal Engineering, 62: 13-19, 2014
[23]J. Yang, A.W. Fan*, W. Liu*, A.M. Jacobi, Optimization of shell-and-tube heat exchangers conforming to TEMA standards with designs motivated by constructal theory, Energy Conversion and Management, 78(2014) 468–476
[22]J.L. Wan, Wei Yang, Aiwu Fan*, Yi Liu, Hong Yao, Wei Liu, Yiqing Du, Daiqing Zhao, A numerical investigation on combustion characteristics of H2/air mixture in a micro-combustor with wall cavities, International Journal of Hydrogen Energy, 39: 8138-8146, 2014
[21]Y. Liu, J.Y. Zhang, A.W. Fan*, J.L. Wan, H. Yao, W. Liu, Y.Q. Du, Numerical investigation of CH4/O2 mixing in Y-shaped mesoscale combustors with/without porous media, Chemical Engineering and Processing, 79: 7-13, 2014
[20]J.L. Wan, A.W. Fan*, H. Yao, W. Liu, X.L. Gou, D.Q. Zhao, The impact of channel gap distance on flame splitting limit of H2/air mixture in microchannels with wall cavities, International Journal of Hydrogen Energy, 39:11308-11315, 2014
[19]Y.H. You, A.W. Fan*, X.J. Lai, W. Liu, S.Y. Huang, Experimental and numerical investigations of shell-side thermo-hydraulic performances for shell-and-tube heat exchanger with trefoil-hole baffles, Applied Thermal Engineering, 50: 950-956, 2013
[18]A.W. Fan*, J.L. Wan, K. Maruta, H. Nakamura, H. Yao, W. Liu, Flame dynamics in a heated meso-scale radial channel, Proceedings of Combustion Institute, 34: 3351-3359, 2013
[17]Y.H. You, A.W. Fan*, X.J. Luo, S.P. Jin, W. Liu, S.Y. Huang, A theoretical investigation in the effects of recycles on laminar heat transfer enhancement of parallel-flow heat exchangers, Chemical Engineering and Processing, 70: 27-36, 2013
[16]A.W. Fan*, J.L. Wan, Y. Liu, H. Yao, B.M. Pi, K. Maruta, W. Liu, The effect of the blockage ratio on the blow-off limit of a hydrogen/air flame in a planar micro-combustor with a bluff body, International Journal of Hydrogen Energy, 38: 11438-11445, 2013
[15]A.W. Fan*, J.L. Wan, K. Maruta, H. Yao, W. Liu, Interactions between heat transfer, flow field and flame stabilization in a micro-combustor with a bluff body, International Journal of Heat and Mass Transfer, 66: 72-79, 2013
[14]J. Guo, Y.X. Yan, W. Liu, F.M. Jiang*, A.W. Fan*, Effects of upwind area of tube inserts on heat transfer and flow resistance characteristics of turbulent flow, Experimental Thermal and Fluid Science, 48:147-155, 2013
[13]A.W. Fan*, H. Nakamura, K. Maruta, W. Liu, Experimental investigation of flame pattern transitions in a heated radial micro-channel, Applied Thermal Engineering, 47: 111-118, 2012
[12]A.W. Fan, J.J. Deng, A. Nakayama, W. Liu*, Parametric study on turbulent heat transfer and flow characteristics in a circular tube fitted with louvered strip inserts, International Journal of Heat and Mass Transfer, 55: 5205-5213, 2012
[11]Y.H. You, A.W. Fan*, W. Liu, S.Y. Huang, Thermo-hydraulic characteristics of laminar flow in an enhanced tube with conical strip inserts, International Journal of Thermal Sciences, 61: 28-37, 2012
[10]J.L. Wan, A.W. Fan*, K. Maruta, H. Yao, W. Liu, Experimental and numerical investigation on combustion characteristics of premixed hydrogen/air flame in a micro-combustor with a bluff body, International Journal of Hydrogen Energy, 37: 19190-19197, 2012
[9]Y.H. You, A.W. Fan*, S.Y. Huang, W. Liu, Numerical modeling and experimental validation of heat transfer and flow resistance on the shell side of a shell-and-tube heat exchanger with flower baffles, International Journal of Heat and Mass Transfer, 55: 7561-7569, 2012
[8]H. Nakamura, A.W. Fan, S, Minaev, E. Sereshchenko, R. Fursenko, Y. Tsuboi, K. Maruta*, Bifurcations and negative propagation speeds of methane/air premixed flames with repitative extinction and ignition in a heated microchannel, Combustion and Flame, 159(4): 1631-1643, 2012
[7]A.W. Fan, J.J. Deng, J. Guo, W. Liu*, A numerical study on thermo-hydraulic characteristics of turbulent flow in a circular tube fitted with conical strip inserts, Applied Thermal Engineering, 31: 2819-2828, 2011
[6]A.W. Fan*, S. Minaev, S. Kumar, W. Liu and K. Maruta, Experimental investigation on flame pattern formations of DME–air mixtures in a radial microchannel, Combustion and Flame, 157: 1637-1642, 2010
[5]A.W. Fan, S. Minaev, E. Sereshchenko, R. Fursenko, S. Kumar, W. Liu, K. Maruta*, Experimental and numerical investigations of flame pattern formations in a radial microchannel. Proceedings of Combustion Institute, 32: 3059-3066, 2009
[4]A.W. Fan*, S. Minaev, E. Sereshchenko, Y. Tsuboi, H. Oshibe, H. Nakamura, K. Maruta, Propagation dynamics of splitting flames in a heated microchannel, Combustion, Explosion and Shock Waves, 45: 245-250, 2009
[3]H. Nakamura, A.W. Fan, H, Minamizono, K. Maruta, H. Kobayashi, T. Niioka, Bifurcations of stretched premixed flame stabilized by a hot wall, Proceedings of the Combustion Institute, 32(1): 1367-1374, 2009
[2]A.W. Fan*, S. Minaev, S. Kumar, W. Liu, K. Maruta, Regime diagrams and characteristics of flame patterns in radial microchannels, Combustion and Flame, 153: 479-489, 2008
[1]A.W. Fan*, S. Minaev, S. Kumar, W. Liu, K. Maruta, Experimental investigation on flame pattern formations and combustion completeness in a radial microchannel, Journal of Micromechanics and Microengineering, 17 (12): 2398-2406, 2007

所获荣誉和奖励

1. ESI Highly Cited Paper一篇（2021）；
2.“2020爱思唯尔中国高被引学者（2020 Highly Cited Chinese Researchers）；
3. ESI Highly Cited Paper一篇（2019）；
4. Chemical Engineering and Processing杂志封面论文（2019）；
5. 华中科技大学教学质量二等奖（2019）；
6. 国家优秀硕士生奖学金获得者（2名）指导老师（2018）；
7. ESI Hot Paper一篇（2017）；
8. ESI Highly Cited Paper两篇（2016）；
9. 国家优秀博士生奖学金获得者指导老师（2015）；
10. 华中科技大学优秀科研工作者（2015）；
11. 教育部科技进步一等奖（2015），排名第7/11；
12. ESI Highly Cited Paper两篇（2015）；
13. 湖北省优秀学士学位论文指导老师（2015）；
14. ESI Highly Cited Paper一篇（2014）；
15. 国家优秀博士生奖学金获得者指导老师（2013）；
16. 湖北省优秀学士学位论文指导老师（2013）；
17. 华中科技大学教学质量二等奖（2010，2011，2012）；
18.  Journal of Micromechanics and Microengineering杂志年度亮点文章（2007）；
19. 华中科技大学研究生科技十佳（2003）。