米建春，北京大學(xué)教授，博士生導(dǎo)師。國(guó)際上具有影響力的湍流與燃燒研究專(zhuān)家；曾獲得過(guò)“湖湘學(xué)者”、“楚天學(xué)者”、“湖南省特聘專(zhuān)家”、“浙江省特聘專(zhuān)家”等稱(chēng)號(hào)。1983和1986年在華中科技大學(xué)分別獲工學(xué)學(xué)士和碩士學(xué)位（熱能動(dòng)力），1995年于澳洲Newcastle大學(xué)獲理學(xué)博士學(xué)位(流體力學(xué))。在澳大利亞工作期間，歷任Adelaide大學(xué)國(guó)家研究員、主任研究員及兼職教授。從事的研究領(lǐng)域包括湍流動(dòng)力學(xué)、風(fēng)力發(fā)電技術(shù)、高效低NOx燃燒以及燃燒污染控制（包括PM2.5）。在世界各地做特邀學(xué)術(shù)報(bào)告20余次，發(fā)表學(xué)術(shù)論文及報(bào)告200余篇，其中90余篇被SCI收錄且被引用1800余次；另獲10余項(xiàng)燃燒器、射流噴嘴和超細(xì)顆粒物聚并裝置國(guó)際和國(guó)內(nèi)發(fā)明專(zhuān)利（前者在歐、美、澳、亞諸國(guó)已授權(quán)）。

教育及工作經(jīng)歷：

1979－1983：華中科技大學(xué)(原名:華中工學(xué)院)動(dòng)力系本科生(熱動(dòng))；1983年獲學(xué)士學(xué)位。

1983－1986：華中科技大學(xué)動(dòng)力系碩士生（熱動(dòng))；1986年獲碩士學(xué)位。

1988－1989：華中科技大學(xué)國(guó)家煤燃燒重點(diǎn)實(shí)驗(yàn)室博士生(燃燒技術(shù))；因公派訪澳而中止。

1991－1994：澳洲Newcastle大學(xué)機(jī)械工程系博士生(流體力學(xué))；1995年獲博士學(xué)位。

1986－1988：長(zhǎng)沙理工大學(xué)（原名:長(zhǎng)沙電力學(xué)院，電力系助教。

1990－1991：Newcastle 大學(xué)機(jī)械工程系，訪問(wèn)學(xué)者。

1994－1995：Newcastle 大學(xué)機(jī)械工程系，助理研究員。

1995－1996：Adelaide 大學(xué)機(jī)械工程系，博士后。

1997－2001：Adelaide 大學(xué)，澳洲國(guó)家研究員。

2001－2005：Adelaide大學(xué)高級(jí)研究員。

2006-2013： Adelaide大學(xué)兼職教授。

2006-今： 北京大學(xué)工學(xué)院教授。

社會(huì)兼職：

1、國(guó)際燃燒協(xié)會(huì)會(huì)員、中國(guó)力學(xué)學(xué)會(huì)和中國(guó)工程熱物理學(xué)會(huì)會(huì)員。

2、澳政府研究基金（ARC）申請(qǐng)的國(guó)際評(píng)審專(zhuān)家 (1999-)。

3、中國(guó)政府自然科學(xué)獎(jiǎng)評(píng)審專(zhuān)家（2010 -）。

4、中國(guó)自然科學(xué)基金申請(qǐng)的評(píng)審專(zhuān)家(2006 - )/教育部《科學(xué)進(jìn)步獎(jiǎng)》評(píng)審專(zhuān)家。

5、許多屆澳亞流體力學(xué)學(xué)術(shù)會(huì)議 (AFMC) 組委會(huì)委員及分組執(zhí)行主席。

6、第四屆國(guó)際流體力學(xué)學(xué)術(shù)會(huì)議 (ICFM-4, 2004) 分組執(zhí)行主席。

7、Chaired Session of Experimental Methods in Fluid Mechanics, 22nd International Congress of Theoretical & Applied Mechanics (August 25-29, 2008, Adelaide, Australia).

8、Chaired Session of Turbulence, the 2007 Australian Combustion Symposium (Dec 9-11, 2007, the University of Sydney).

9、多個(gè)國(guó)際學(xué)術(shù)（流體、燃燒、能源）雜志的特邀審稿人。這些雜志包括Energy, Energy & Fuel, Intl J. Hydrogen Energy, Combustion & Flame, J. Fluid Mechanics, Physics of Fluids, 及 Physical Review E等。

科學(xué)研究：

研究方向：

(一)基礎(chǔ)

• 氣體、固體燃料無(wú)火焰燃燒的形成機(jī)理以及與射流混合的關(guān)系

• 自由剪切流（射流、尾流）中湍流的形成發(fā)展及控制方法

• 湍流結(jié)構(gòu) (包括大尺度有序和小尺度無(wú)序結(jié)構(gòu))及發(fā)展湍流模型

• 各種流動(dòng)中的湍流混合機(jī)理; 湍流混合特性及控制

(二)應(yīng)用

• 研究開(kāi)發(fā)高效低污染（工業(yè)）燃燒器、無(wú)火焰燃燒器

• 研究開(kāi)發(fā)PM2.5捕集與減排技術(shù)

• 研究開(kāi)發(fā)風(fēng)力發(fā)電技術(shù)

• 研究開(kāi)發(fā)新型高效射流噴嘴技術(shù)

• 研究開(kāi)發(fā)穩(wěn)燃技術(shù)及裝置(如奧運(yùn)接力火炬，慶典火壇等）  

科研成果：

米建春教授在流體湍流、燃燒科學(xué)與技術(shù)方面具有深厚的基礎(chǔ)，發(fā)表學(xué)術(shù)論文200余篇，其中近100篇被SCI收錄且被引用1800余次；另獲10余項(xiàng)燃燒器、射流噴嘴和超細(xì)顆粒物聚并裝置國(guó)際和國(guó)內(nèi)發(fā)明專(zhuān)利（前者在歐、美、澳、亞諸國(guó)已授權(quán)）。特別是，過(guò)去十余年一直圍繞高效低污染燃燒研究這一核心問(wèn)題，通過(guò)理論分析、實(shí)驗(yàn)和數(shù)值模擬取得了一系列具有國(guó)際先進(jìn)水平的原創(chuàng)性成果，最具代表性的基礎(chǔ)工作是對(duì)新型燃燒 “溫和（MILD）燃燒” 和 “溫和氧燃燒（MILD Oxy-Combustion）” 的研究，這方面的成果產(chǎn)出為科技論文40余篇，包括SCI文章20篇和EI文章6篇，對(duì)推進(jìn)溫和燃燒基礎(chǔ)研究做出了貢獻(xiàn)。在應(yīng)用方面，主持研發(fā)過(guò)自激抖動(dòng)射流燃燒器（降NOx排放~50%，節(jié)能~8%）和正在研發(fā)新型高效低污染溫和燃燒技術(shù)（應(yīng)用包括煤粉燃燒、煤氣化等；降NOx排放70%以上，某些條件下節(jié)能可達(dá)到~30%）及其工業(yè)（電力、冶金、鋼鐵等）應(yīng)用；在燃燒煙氣污染控制方面，已研發(fā)出新型的細(xì)顆粒物PM2.5以及有毒重金屬汞的高效脫除技術(shù)。

米建春教授曾經(jīng)和正在（中、港、澳大利亞）負(fù)責(zé)多項(xiàng)政府基金和工業(yè)支持的重要研究項(xiàng)目，包括973、863、985、自然科學(xué)基金和香港ITSP基金資助的多個(gè)項(xiàng)目。

發(fā)明專(zhuān)利（代表性的）：

 

1. Mi, J., Luxton, R. E. and Nathan, G. J.: Oscillating Jet Nozzles (抖動(dòng)射流噴嘴), 在多國(guó)獲發(fā)明專(zhuān)利（授權(quán)），其中包括 (網(wǎng)上 http://ep.espacenet.com 檢索)：

　　a) The US Patent (美國(guó))- US6685102 (2004.2);

　　b) European Patent (歐洲)- EP1032789 (2004.9);

　　c) Australian Patent (澳洲)- AU746248 (2002.4);

　　d) New Zealand Patent (新西蘭)- NZ504470 (2003.7);

　　e) Chinese Patent (中國(guó))- CN1279756 (2001.1)；

　　f) Japanese Patent (日本)- JP2001523559 (2001.11);

　　g) Canadian IP Office - CA2308494 (2008.10).

2. 米建春、楊立清(2006): 一種火焰穩(wěn)燃器, 專(zhuān)利號(hào)： ZL200610080971.7, 中國(guó)知識(shí)產(chǎn)權(quán)局

3. 米建春、周裕 (2008): 控制混合的煤氣燃燒器, 專(zhuān)利號(hào)：ZL200810178796.4, 中國(guó)知識(shí)產(chǎn)權(quán)局.

4. 周裕、米建春 (2010): 一種煤粉燃燒裝置, 專(zhuān)利號(hào)：ZL201010150461.9, 中國(guó)知識(shí)產(chǎn)權(quán)局。發(fā)明專(zhuān)利

5. 米建春、楊立清、杜誠(chéng)(2010): 一種促進(jìn)顆粒相互作用的裝置，專(zhuān)利號(hào)： ZL201020299190.9, 中國(guó)知識(shí)產(chǎn)權(quán)局.

6. 米建春、楊立清、杜誠(chéng)(2010): 一種促進(jìn)顆粒相互作用的裝置和方法，專(zhuān)利號(hào)： ZL201010504951.4, 中國(guó)知識(shí)產(chǎn)權(quán)局.

7. 米建春、杜誠(chéng)(2012): 一種荷電輔助促進(jìn)顆粒物相互作用的裝置及方法, 申請(qǐng)?zhí)枺?01210056892.8. 中國(guó)知識(shí)產(chǎn)權(quán)局

8. 米建春、杜誠(chéng)(2012): 一種利用電極荷電促進(jìn)顆粒物相互作用的裝置及方法, 專(zhuān)利號(hào)：ZL201210056895.1. 中國(guó)知識(shí)產(chǎn)權(quán)局

9. 張健鵬、米建春（2014）：一種自激抖動(dòng)射流混合器，專(zhuān)利號(hào)：ZL20142 0172372.8, 中國(guó)知識(shí)產(chǎn)權(quán)局.

10. 米建春、梅振鋒（2014）：一種燃?xì)夤�業(yè)鍋爐的爐膽，專(zhuān)利號(hào)：ZL20142 0154485.5, 中國(guó)知識(shí)產(chǎn)權(quán)局.

11. 米建春、王飛飛、梅振鋒（2014）：一種直噴式燃?xì)鉄o(wú)焰燃燒器，申請(qǐng)?zhí)枺?01410019516.0, 中國(guó)知識(shí)產(chǎn)權(quán)局.

12. 米建春、梅振鋒、王飛飛（2014）：一種斜流式常溫?zé)o焰燃燒器，申請(qǐng)?zhí)枺?01410020218.3, 中國(guó)知識(shí)產(chǎn)權(quán)局.

13. 米建春、梅振鋒、王飛飛（2014）：一種內(nèi)旋流外直流的無(wú)焰燃燒器，申請(qǐng)?zhí)枺?01420074077.9, 中國(guó)知識(shí)產(chǎn)權(quán)局.

 

 

 

論文專(zhuān)著：

代表性的SCI論文：

1. Li P., Wang F., Mi J., Dally B. B., Mei Z., Zhang J., Parente A. (2014): Mechanisms of NOx formation in MILD combustion of CH₄/H₂ fuel blends, Intl J. Hydrogen Energy, http://dx.doi.org/10.1016/j.ijhydene.2014.09.050.

2. Liu Y., Zhang J., Deo R., Mi J., Nathan G.J., Zhu R. (2014): Influence of sidewalls on the centerline small-scale turbulence of a turbulent high-aspect-ratio rectangular jet, Experimental Thermal & Fluid Science, 58, 139-144.

3. Xu M., Tong X., Yue D., Zhang J., Mi J., Nathan G.J. and Kalt P.A.M. (2014): Effect of noncircular orifice plates on the near flow field of turbulent free jets, Chin Phys B, accepted.

4. Wang L., Meng X., Guo Z, and Mi J. (2014): Volume-averaged macroscopic equation for fluid flow in moving porous media, Comm. Comp. Phys., arXiv: 1404.6302.

5. Wang L., Guo Z. and Mi J. (2014): Drafting, kissing and tumbling process of two particles with different sizes, Computer & Fluids, 96, 20-34.

6. Zhang J., Xu M., and Mi J. (2014): Large eddy simulations of a circular orifice jet with and without a cross-sectional exit plate, Chin Phys B, 23(4), 044704.

7. Li P., Wang F., Mi J., Dally B. B. and Mei Z. (2014): MILD Combustion under different premixing patterns in a laboratory-scale furnace. Energy & Fuels, 28(3), 2211-2226.

8. Wang F., Li P., Mei Z., Zhang J. and Mi J. (2014): Combustion of CH₄/O₂/N₂ in a well stirred reactor. Energy, 72, 242-253.

9. Li P., Wang F., Tu Y., Mei Z., Zhang J., Zheng Y., Liu H., Liu Z., Mi J., Zheng C. (2014): MILD oxy-combustion characteristics of light-oil and pulverized-coal in a pilot-scale furnace. Energy & Fuels, 28 (2): 1524-1535.

10. Wang F., Li P., Mei, Z. and Mi J. (2014): Auto- and forced-ignition temperatures of diffusion flames obtained through the steady RANS modeling. Energy & Fuels, 28 (1), 666–677.

11. Mei Z., Li P., Wang F., Zhang J. and Mi J. (2014): Influences of reactant injection velocities on MILD coal combustion. Energy & Fuels, 28 (1), 369–384.

12. Mei Z., Wang F., Li P. and Mi J. (2013): Diffusion flame of a CH₄/H₂ jet in a hot coflow: effects of coflow oxygen and temperature, Chinese J. Chemical Engineering, 21(7), 11-24.

13. Mi J., Xu M., and Zhou T. (2013): Reynolds number influence on statistical behaviors of turbulence in a circular free jet, Physics of Fluids, 25(7), 075101.

14. Wang F., Mi J. and Li P. (2013): Combustion regimes of a jet diffusion flame in hot coflow, Energy & Fuels, DOI: 10.1021/ef400500w.

15. Xu J., Zhang J., Wang H. and Mi J. (2013): Fine particle behavior in the air flow past a triangular cylinder, Aerosol Science & Technology, 47(8), 875-887. DOI:10.1080/02786826. 2013.798612.

16. Xu M., Zhang J., Mi J., Nathan G. J., and Kalt P. A. M. (2013): PIV measurements of turbulent jets issuing from triangular and circular orifice plates, Sci. China-Phys Mech Astron, 56(6), 1-11. DOI: 10.1007/s11433-013-5099-0.

17. Zhang J., Xu M., Pollard A.and Mi J. (2013): On the spectral exponent over the inertial-range in a turbulent square jet, Physical Review E, 87, 053009.

18. Xu M., Pollard A., Mi J., Secretain F., and Sadeghi H. (2013): Effects of Reynolds number on some properties of a turbulent jet from a long square pipe, Physics of Fluids 25, 035102; doi: 10.1063/1.4797456.

19. Li P., Dally B.B., Mi J. and Wang F. (2013): MILD Oxy-combustion of gaseous fuels in a laboratory-scale furnace, Combustion & Flame 160(5), 933-946.

20. Xu M., Zhang J., Mi J., Nathan G. J., and Kalt P. A. M. (2013): Mean and fluctuating velocity fields of a diamond turbulent jet, Chinese Physics B, 22(3), 034701.

21. Deo, R. C., Nathan, G. J. and Mi, J. (2013): Similarity analysis of the momentum field of a subsonic, plane air jet with varying jet-exit Reynolds numbers, Physics of Fluids, 25(1), 015115 (31 pages).

22. Wang H.F., Zhou Y. and Mi J. (2012): Effects of aspect ratio on the drag of a wall-mounted finite-length cylinder in subcritical and critical regimes, Experiments in Fluids, 53, 423-436.

23. Chen S., Mi J., Liu H. and Zheng C. (2012): First and second thermodynamic-law analyses of hydrogen-air counter-flow diffusion combustion in various combustion modes, Intl J. Hydrogen Energy, 37(6), 5234-5245.

24. Mei Z., Mi J. and Wang F. (2012): Dimensions of CH₄-Jet Flame in Hot O₂/CO₂ Coflow, Energy & Fuels, 26, 3257-3266.

25. Mi J., Wang F., Li P. and Dally B.B. (2012): Modified vitiation by operational parameters in a MILD combustion furnace, Energy & Fuels, 26(1), 265-277.

26. Zhang J., Mi J. and Wang H. (2012): A new mesh-independent model for droplet / particle collision, Aerosol Science & Technology, 46(6), 622-630.

27. Xu M., Mi J. and Li P. (2012): Large eddy simulations of an initially-confined triangular oscillating jet, Flow, Turbulence and Combustion, 88(3), 367-386.

28. Mi J., Li P. and Zheng C. (2011): Impact of injection conditions on flame characteristics from a parallel multi-jet burner. Energy, 36, 6583-6595.

29. Mi J. (2011): Influences of initial velocity, diameter and Reynolds number on a circular turbulent air/air jet, Chinese Physics B, 20(12), DOI: 10.1088/1674-1056/20/12/12.

30. Mi J., Xu M. and Du C. (2011): Influence of low-pass filter cutoff frequency on turbulence properties of free jets, Measurement Science & Technology, 22, 125401 (10pp).

31. Wang F., Mi J., Li P. and Zheng C. (2011): Diffusion flame of a CH4/H2 jet in hot low-oxygen coflow, Intl J. Hydrogen Energy, 36, pp. 9267-9277.

32. Du C., Mi J. and Zhou Y. (2011): Mini-jet controlled turbulent round jet, Chinese Physics Letters, 28(12), 124703.

33. Mi J. and Feng B. (2011): Analytical investigation on the mean and the turbulent velocity fields of a plane jet, Chinese Physics B, 20(7), 074701.

34. Li P. and Mi J., Dally B.B., Craig R.A., Wang F. (2011): Premixed moderate or intense low-oxygen dilution (MILD) combustion from a single jet burner in a laboratory-scale furnace, Energy & Fuels, 25 (7), 2782–2793.

35. Li P. and Mi J. (2011): Influence of inlet dilution of reactants on premixed combustion in a recuperative furnace, Flow, Turbulence and Combustion, 87(4), pp. 617-638.

36. Li P., Mi J., Dally B.B., Wang F. et al. (2011): Progress and recent trend in MILD Combustion, Sci. China E. 54(2), 255–269.

37. Mi J., Xu M., Antonia, R. A. and Wang J. J. (2011): Thermal characteristics of the wake shear layers from a slightly heated circular cylinder, Experiments in Fluids 50(2), 429-441.

38. Mi, J. and Antonia, R. A. (2010): Key factors of determining the magnitude of vorticity in turbulent plane wakes. Chin. Phys. Lett. 27 (2) 024702.

39. Mi, J. and Antonia, R. A. (2010): Approach to local axisymmetry in a turbulent cylinder wake. Experiments in Fluids 48(6), 933-947.

40. Mi, J. and Nathan, G. J. (2010): Statistical properties of turbulent free jets issuing from nine differently-shaped nozzles. Flow, Turbulence and Combustion 84, 583-606.

41. Mi, J., Kalt, P. and Nathan, G. J. (2010): On turbulent jets issuing from notched-rectangular and circular orifice plates. Flow, Turbulence and Combustion 84, 565-582.

42. Mi J., Li P., Dally B.B., Craig R.A. (2009) Importance of initial momentum rate and air-fuel premixing on MILD combustion in a recuperative furnace. Energy & Fuels 23(11), 5349–5356.

43. Mi J., Feng B., Deo R.C., and Nathan G.J. (2009): Effect of exit Reynolds number on self-preservation of a plane jet, Acta Physica Sinica 58(11), 7756-7764.

44. Deo, R. C., Mi, J. and Nathan, G. J. (2008): The influence of Reynolds number on a plane jet, Physics of Fluids 20(7), 075108.

45. Mi, J., Kalt, P. and Nathan, G. J. (2007): PIV measurements of a turbulent Jet issuing from round sharp-edged plate, Experiments in Fluids 42, 625-637.

46. Deo, R. C., Mi J. and Nathan, G. J. (2007): The influence of nozzle aspect ratio on plane jets, Experimental Thermal & Fluid Science 31(8), 825－838.

47. Deo, R. C., Mi J. and Nathan, G. J. (2007): The influence of nozzle-exit geometric profile on statistical properties of a turbulent plane jet, Experimental Thermal & Fluid Science 32, 545-559.

48. Mi, J. (2006): Correlation between non-Gaussian statistics of a scalar and its dissipation rate, Physical Review E, 74(1), 016301.

49. Mi, J. and Nathan, G. J. (2006): The influence of inlet flow condition on the frequency of self-excited jet precession, J. Fluids & Structures, 22(1), 129-133.

50. Nathan G. J., Mi J., Alwahabi Z.T., Newbold G. J. R. & Nobe D. S. (2006): Impacts of a jet's exit flow pattern on mixing and combustion performance, Prog. Energy & Combust. Sci. 32(5/6), 496-538.

51. Langman, A.S., Nathan, G.J., Mi, J. and Ashman, P.J. (2006): The influence of geometric nozzle profile on the global properties of a turbulent diffusion flame, Proc. Combust. Inst. 31, 1599-1607, The Combustion Institute, Pittsburgh, PA.

52. Mi, J., Deo, R. C. and Nathan, G. J. (2005): Fast-convergent iterative scheme for filtering velocity signals and finding Kolmogorov scales, Physical Review E, 71(6), 018506.

53. Mi, J., Deo, R. C. and Nathan, G. J. (2005): Characterization of high-aspect-ratio rectangular jets, Physics of Fluids, 17(6), 039506.

54. Mi, J. and Nathan, G. J. (2005): Statistical analysis of the velocity field in a precessing jet, Physics of Fluids, 17(1), 015102.

55. Mi, J. and Nathan, G. J. (2004): Self-excited jet-precession Strouhal number and its influence on downstream mixing field, J. Fluids & Structures, 19(6), 851-862.

56. Mi, J., Zhou, Y. and Nathan, G. J. (2004): The effect of Reynolds number on the passive scalar mixing in a turbulent plane wake, Flow, Turbul. & Combust. 72, 311-331.

57. Shtern, V. and Mi, J. (2004): Hysteresis and precession of a swirling jet normal to a wall, Phys. Rev. E, 69(1), 016312, 11 pages.

58. Mi, J. and Nathan, G. J. (2003): The influence of probe resolution on the measurements of a passive scalar and its derivatives, Expts. Fluids, 34(6), 687-696.

59. Mi, J., Nobes, D. and Nathan, G. J. (2001): Influence of exit conditions of round nozzles on the passive scalar field of a free jet, J. Fluid Mech., 432, 91-125.

60. Mi J., Nobes, D.S. and Nathan, G.J. (2001): Mixing characteristics of axisymmetric free jets issuing from a contoured nozzle, an orifice plate and a pipe, ASME J. Fluids Engineering, 123, 878-883.

61. Mi, J., Nathan, G. J. and R.E. Luxton (2001): Mixing characteristics of a self-excited flapping jet, Flow, Turbul. & Combust., 67, 1-23.

62. Mi, J. and Antonia, R. A. (2001): Effect of large-scale intermittency and mean shear on scaling range exponents in a turbulent jet, Phys. Rev. E, 64, 026302, 7 pages.

63. Mi J., Nathan, G. J. and Luxton, R. E. (2000): Centreline mixing characteristics of jets from nine differently shaped nozzles, Experiments in Fluids, 28(1), 93-94.

64. Rehab, H., Antonia, R.A., Djeridi, L. and Mi J. (2000): Characteristics of fluorescein dye and temperature fluctuations in a turbulent near-wake, Experiments in Fluids, 28(5), 462-470.

65. Mi, J. and Nathan, G. J. (1999): Effect of small vortex-generators on scalar mixing in the developing region of a turbulent jet, Intl. J. Heat & Mass Transf., 42(21), 3919-26.

66. Mi J. and Antonia, R. A. (1999): Evolution of centreline temperature moments in a circular cylinder wake, Intl. Comm. Heat & Mass Transfer, 26(1), 45-53.

67. Mi J., Antonia R. A., Nathan, G. J. and Luxton, R. E. (1998): Non-Gaussian statistics of a passive scalar in turbulent flows, Proc. Combust. Inst., Vol. 27, 989-996.

68. Antonia, R. A. and Mi J. (1998): Approach towards self-preservation of turbulent cylinder and screen wakes, Experimental Thermal Fluid Science, 17, 277-284.

69. Mi, J. and Antonia, R. A. (1996): Vorticity characteristics of the intermediate turbulent wake, Expts. Fluids, 20, 383-392.

70. Mi, J. and Antonia, R. A. (1995): A general relation for stationary probability density functions, Phys. Rev. E, 51, 4466-69.

71. Mi, J., Antonia, R. A. and Anselmet, F. (1995): Joint statistics between temperature and its dissipation rate components in a round jet, Phys. Fluids, 7, 1665-74.

72. Mi J. and Antonia, R. A. (1994): Temperature distribution within vortices in the wake of a cylinder, Int. J. Heat & Mass Transfer, 37 (6), 1048-1050.

73. Mi, J. and Antonia, R. A. (1994): Corrections to Taylor’s hypothesis in a turbulent circular jet, Phys. Fluids, 6, 1548-52.

74. Antonia, R. A. & Mi, J. (1993): Temperature dissipation in a turbulent round jet, J. Fluid Mech., 250, 531-550.

75. Antonia, R. A. and Mi J. (1993): Corrections for velocity and temperature derivatives in turbulent flows, Experiments in Fluids, 14, 203-208.

 

 

 

 

 

 

榮譽(yù)獎(jiǎng)勵(lì)：

1990：中華人民共和國(guó)教育部聯(lián)培獎(jiǎng)學(xué)金。

1991：澳洲政府 OPRS 和 Newcastle 大學(xué)雙份研究生獎(jiǎng)學(xué)金。

1997：澳洲政府基金委員會(huì)研究員獎(jiǎng)。

2000: 研究小組與工業(yè)伙伴一起獲澳洲工程協(xié)會(huì)創(chuàng)新領(lǐng)域“工程優(yōu)秀獎(jiǎng)”- 獲獎(jiǎng)項(xiàng)目“悉尼2000年奧運(yùn)會(huì)火炬燃料燃燒系統(tǒng)設(shè)計(jì)”。

2001: 研究小組與工業(yè)伙伴一起獲澳洲“合作研發(fā)優(yōu)異成就國(guó)家獎(jiǎng)” - 獲獎(jiǎng)項(xiàng)目“旋轉(zhuǎn)進(jìn)動(dòng)射流 Gyro-Therm 燃燒器的聯(lián)合發(fā)展”。

2009: 被授予“湖南省特聘專(zhuān)家”。

2012: 被授予“北京大學(xué)優(yōu)秀指導(dǎo)老師”。

2013: 被授予“浙江省特聘專(zhuān)家”。

2013: 被授予“北京大學(xué)優(yōu)秀博士學(xué)位論文指導(dǎo)老師”。