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                            教授

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                            姓 名 范愛武 性 別
                            職 稱 教授(博導) 畢業學校
                            個人主頁
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                            郵 箱 faw@hust.edu.cn
                            通訊地址 華中科技大學能源與動力工程學院412
                            個人資料簡介
                            范愛武,男,教授,博士生導師。同時為煤燃燒國家重點實驗室基礎燃燒研究小組成員,中歐清潔與可再生能源學院兼職教授?,F指導博士生3人、碩士生7人;已畢業博士生4人,碩士生近20人。曾在電廠工作4年,并留學日本2年多。研究興趣包括:微尺度燃燒、電子器件散熱等多個領域。在Combustion and Flame,International Journal of Heat and Mass Transfer等權威期刊上發表SCI論文60多篇,其中ESI高被引論文7篇。出版著作2部,教材2本。申請和授權發明專利10項。講授《工程傳熱學》、《工程熱力學》、《基礎燃燒學》、《動力工程現代測試技術》、《多孔介質傳熱傳質理論》等課程。
                            擬招收2020級博士生1名,碩士生2-4名。歡迎熱愛科研、膽大心細、英語水平較好的同學加入本課題組。導師對每位同學平等對待,均有機會參加國內外重要學術會議和科研課題,接觸燃燒與傳熱領域的最前沿,實現你的科研夢想。
                            課題組畢業的學生均能找到理想的工作,例如:2名博士進入高校任教(華中科技大學、武漢科技大學),1名博士進入華為武漢研究所,1名博士進入深圳分布式能源公司,1名碩士出國深造,2名碩士進入中興通訊,1名碩士進入武漢鐵四院,其他就業單位包括:美的、格力、中冶賽迪、萬家樂、711研究所、608研究所、金融公司等。

                            教育及工作經歷

                              1991年9月~1995年7月 華中理工大學動力系,本科畢業;

                              1995年8月~1999年8月 巴陵石化公司岳陽石化總廠熱電廠,鍋爐車間技術員;

                              1999年9月~2004年5月 華中科技大學能源與動力工程學院,獲博士學位;

                              2004年6月~2006年7月 華中科技大學力學系博士后流動站,博士后;

                              2006年1月~7月 東北師范大學留日預備學校,日語培訓;

                              2006年10月~2008年10月 日本東北大學,博士后;

                              2009年2月~ 2015年10月 華中科技大學,副教授;

                              2011年4月~ 2014年4月,工程熱物理系副主任;

                              2011年5月~ 華中科技大學,博士生導師;

                              2013年10月~ 2013年12月 日本東北大學,訪問學者;

                              2015年11月~  華中科技大學,教授

                            研究方向

                              微尺度燃燒;電子器件散熱;催化燃燒;強化傳熱

                            科研項目

                              縱向課題:
                              1. 國家自然科學基金面上項目3項;
                              2. 湖北省自然科學基金1項;
                              3. 教育部留學回國人員科研啟動基金1項;
                              4. 重慶大學教育部重點實驗室開放基金1項;
                              5. 煤燃燒國家重點實驗室開放基金2項;
                              6. 華中科技大學自主創新基金2項。
                              橫向課題:
                              1. 四川空分設備有限責任公司委托項目;
                              2. 湖北中煙工業有限責任公司委托項目。

                            代表性論文與專利

                              著作:
                              [1] 劉偉,范愛武,黃曉明,多孔介質傳熱傳質理論與應用,科學出版社,2006.12
                              [2] 范愛武,姚洪,劉偉,微小尺度燃燒,科學出版社,2012.2
                              [3] 黃曉明,劉志春,范愛武,工程熱力學,華中科技大學出版社,2011.9
                              [4] 黃曉明,許國良,劉志春,范愛武,方海生,工程熱力學,中國電力出版社,2015.8
                              國際期刊論文:
                              [61]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, in press
                              [60]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, in press
                              [59]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, https://doi.org/10.1016/j.joei.2019.05.003
                              [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 ?ow, 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 ?ow resistance characteristics of turbulent ?ow, 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 ?ow 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

                              專利:
                              [1]范愛武,劉思遠,張若昀,楊金國,劉偉,一種微小型燃燒器,發明專利,授權號:201110057146.6
                              [2]范愛武,萬建龍,張婧宜,張賀,劉偉. 一種分級混合的微小型擴散燃燒器,發明專利,授權號:201310062474.4
                              [3]范愛武,王飛龍,王特,楊金國,劉偉. 一種強化管內對流換熱的擾流元件,發明專利,授權號:201310267871.5
                              [4]范愛武,萬建龍,張賀,一種微燃燒發電裝置,發明專利,授權號:201310396527.6

                            所獲榮譽和獎勵

                              1. Chemical Engineering and Processing雜志封面論文(2019);
                              2. 國家優秀碩士生獎學金獲得者(2名)指導老師(2018);
                              3. ESI Hot Paper一篇(2017);
                              4. ESI Highly Cited Paper兩篇(2016);
                              5. 國家優秀博士生獎學金獲得者指導老師(2015);
                              6. 華中科技大學優秀科研工作者(2015);
                              7. 教育部科技進步一等獎(2015),排名第7/11;
                              8. ESI Highly Cited Paper兩篇(2015);
                              9. 湖北省優秀學士學位論文指導老師(2015);
                              10. ESI Highly Cited Paper一篇(2014);
                              11. 國家優秀博士生獎學金獲得者指導老師(2013);
                              12. 湖北省優秀學士學位論文指導老師(2013);
                              13. 華中科技大學教學質量二等獎(2010,2011,2012);
                              14.  Journal of Micromechanics and Microengineering雜志年度亮點文章(2007);
                              15. 華中科技大學研究生科技十佳(2003)。
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