Research Fields

主要研究方向:

1)晶体生长热物理;

2)冶金过程热物理;

3)太阳电池材料制备技术与太阳能光伏应用;

4)流体机械及系统节能;

5)计算流体动力学、计算传热传质学与计算材料学

Blank8

 

1.       Liu LJ, Liu X, Wang Y, Large-eddy simulation of melt turbulence in a 300-mm Cz–Si crystal growth, International Journal of Heat and Mass Transfer, 2012, 55: 53-60.

2.       Ma WC, Zhong GX, Sun L, Yu QH, Huang XM, Liu LJ, Influence of an insulation partition on a seeded directional solidification process for quasi-single crystalline silicon ingot for high-efficiency solar cells, Solar Energy Materials & Solar Cells, 2012, 100: 231-238.

3.       Li ZY, Liu LJ, Nan XH, Kakimoto K, Role of marangoni tension effects on the melt convection in directional solidification process for multi-crystalline silicon ingots, Journal of Crystal Growth, 2012, 346: 40-44.

4.       Li ZY, Liu LJ, Liu X, Zhang YF, F. J, Effects of argon flow on melt convection and interface shape in a directional solidification process for an industrial-size solar silicon ingot, Journal of Crystal Growth, 2012.

5.       Liu X, Liu LJ, Li ZY, Wang Y, Effects of static magnetic fields on thermal fluctuations in the melt of industrial CZ-Si crystal growth, Journal of Crystal Growth, 2012.

6.       Yu QH, Liu LJ, Ma WC, Zhong GX, Huang XM, Local design of the hot-zone in an industrial seeded directional solidification furnace for quasi-single crystalline silicon ingots, Journal of Crystal Growth, 2012, 358: 5-11.

7.       Liu X, Liu LJ, Li ZY, Wang Y, Effects of cusp-shaped magnetic field on melt convection and oxygen transport in an industrial CZ-Si crystal growth, Journal of Crystal Growth, 2012, 354: 101-108.

8.       Liu LJ, Liu X, Li ZY, Kakimoto K (2011), Computer modeling of crystal growth of silicon for solar cells, Frontiers in Energy, Vol.5, No.3, pp.305-312, 2011 

9.       Liu X, Liu LJ, Wang Y (2011), Effect of Transverse Magnetic Field on Turbulent Fluctuations in the Melt of a Cz-Si Crystal Growth, ECS Transactions, Vol.34, No.1, pp.1123-1128, Mar 2011  EI: 20112614108536

10.   Z.Y. Li , L.J. Liu, W.C. Ma, K. Kakimoto KEffects of Argon Flow on Heat Transfer in a Directional Solidification Process for Silicon Solar Cells. Journal of Crystal Growth. 2011, 318, (1): 298-303.   Mar 2011, doi: 10.1016/j.jcrysgro.2010.11.040 [SCI 751YMEI 20111213767890]

11.   Z.Y. Li, L.J. Liu, W.C. Ma, K. KakimotoEffects of Argon Flow on Impurities Transport in a Directional Solidification Furnace for Silicon Solar Cells, Journal of Crystal Growth, 2011,318(1):304-312.    Mar 2011, doi: 10.1016/j.jcrysgro.2010.11.030 [SCI 751YMEI 20111213767881] 

12.   Liu X, Liu LJ, Wang Y, Kakimoto K (2010), Modeling of the 3D Unsteady Melt Flow in an Industrial-Scale Cz-Si Crystal Growth Using LES Method, ECS Transactions, Vol.27, No.1, pp.1035-1039, Mar. 2010 

13.   Li ZY, Liu LJ, Kakimoto K (2010), Development and Application of a Structured/Unstructured Combined Mesh Scheme for Global Modeling of a Directional Solidification Process of Silicon, ECS Transactions, Vol.27, No.1, pp.1047-1052, Mar. 2010 [EI]

14.   X.J. Chen, S. Nakano, L.J. Liu, K. Kakimoto, Gedanken experiment on point defects in unidirectional solidified single crystalline silicon with no dislocations. Journal of Crystal Growth. 2010,312(2):192-197.   Jan 2010, doi:10.1016/j.jcrysgro.2009.10.035 [SCI: 551PB, EI: 20095112555921]

15.   Koichi Kakimoto, Hitoshi Matsuo, Syo Hisamatsu, Birava Ganesh, Gao Bing, X. J. Chen, Lijun Liu, Hiroaki Miyazawa, Yoshihiro Kangawa, Numerical Analysis of mc-Si Crystal Growth, Solid State Phenomena, Vols. 156-158 (2010) 193-198    [EI: 20100612692359]

16.   K. Kakimoto, L.J. Liu, Analysis of local segregation of impurities at a silicon melt-crystal interface during crystal growth in transverse magnetic field-applied Czochralski method. Journal of Crystal Growth,2009,311(8):2313-2316.   2009  doi:10.1016/j.jcrysgro.2009.02.041 [SCI: 449SZEI: 20091812062360]

17.   Chen XJ, Nakano S, Liu LJ, Kakimoto K (2009), Simulation Analysis of Point Defects in a Silicon Ingot during a Unidirectional Solidification Process for Solar Cells, ECS Transactions, Vol. 18, No. 1, 2009, pp. 1031-1035 [EI: 20101512846119]

18.   Liu X, Liu LJ, Li ZY, Wang Y, Kakimoto K (2009), Prediction of melt-crystal interface and melt convection in a large-scale CZ-Si growth system using RANS and LES methods in global simulation, ECS Transactions, Vol. 18, No. 1, 2009, pp. 983-988  [EI20101512846112]

19.   Kakimoto K, Chen XJ, Liu LJ, Miyazawa H, Matsuo H, Nakano S, Hisamatsu S, Kangawa Y (2009), Heat and impurity transfer mechanisms of Czochralski and directional solidification process, ECS Transactions, Vol. 18, No. 1, 2009, pp. 925-933 [EI20101512846108]

20.   Liu LJ, Miyazawa H, Nakano S, Liu X, Li ZY and Kakimoto K (2009), Modeling and simulation of Si crystal growth from melt, Physica Status Solidi (c), Vol. 6, No. 3, pp. 645-652, 2009, doi: 10.1002/pssc.200880705   [EI20102112951094, ISTP: BJG57]

21.   S. Nakano, L.J. Liu, X.J. Chen, H. Matsuo, K. Kakimoto, Effect of crucible rotation on oxygen concentration in the polycrystalline silicon grown by unidirectional solidification method., Journal of Crystal Growth. 2009,311(4):1051-1055.  doi:10.1016/j.jcrysgro.2008.12.020  [SCI已检: 426MG, EI已检: 20090911932245]

22.   H. Matsuo, R.B. Ganesh, S. Nakano, L.J. Liu, Y. Kangawa, K. Arafune, Y. Ohshita, M. Yamaguchi and K. Kakimoto, Effect of crucible rotation on oxygen concentration  during unidirectional solidification process of multicrystalline silicon for solar cells, Journal of Crystal Growth, 2009,311(4): 1123-1128.     doi:10.1016/j.jcrysgro.2008.11.063  [SCI已检: 426MG, EI已检: 20090911932229]

23.   H. Miyazawa, L.J. Liu and K. Kakimoto, Numerical investigation of the influence of material property of a crucible on interface shape in a unidirectional solidification process. Crystal Growth & Design.2009,9(1): 267-272.   doi: 10.1021/cg800435d [SCI已检: 392WK, EI待检]

24.   H. Matsuo, R.B. Ganesh, S. Nakano, L.J. Liu, Y. Kangawa, K. Arafune, Y. Ohshita,M.  Yamaguchi and K. Kakimoto, Thermodynamical analysis of oxygen incorporation from a quartz crucible during solidification of multicrystalline silicon for solar cell, Journal of Crystal Growth, 2008, 310(22):4666-4671.   doi:10.1016/j.jcrysgro.2008.08.045  [SCI已检: 383EM, EI已检: 084611697632]

25.   X.J. Chen, S. Nakano, L.J. Liu, K. Kakimoto, Study on thermal stress in a silicon ingot during a unidirectional solidification process. Journal of Crystal Growth. 2008, 310(19): 4330-4335. doi:10.1016/j.jcrysgro.2008.07.027   [SCI已检: 369YH, EI已检: 083811572266]  

26.   Chen XJ, Nakano S, Liu LJ and Kakimoto K (2008), Numerical investigation of thermal stress and dislocation density in silicon ingot during a solidification process, Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 135, September 2008, pp. 45-52

27.   H.Matsuo, R.B. Ganesh, S. Nakano, L.J. Liu, K. Arafune, Y. Ohshita, M. Yamaguchi and K. Kakimoto, Analysis of oxygen incorporation in unidirectionally solidified multicrystalline silicon for solar cells. Journal of Crystal Growth. 2008,310(7-9):2204-2208.  doi: 10.1016/j.jcrysgro.2007.12.017 [SCI 已检:300RP, EI已检:081411187284, ISTP已检: 300RP]

28.   L.J. Liu, S. Nakano, K. Kakimoto, Carbon concentration and particle precipitation during directional solidification of multi-crystalline silicon for solar cells. Journal of Crystal Growth. 2008, 310(7-9):2192-2197.      doi: 10.1016/j.jcrysgro.2007.11.165 [SCI 已检: 300RP, EI已检: 081411187230, ISTP已检: 300RP]

29.   X.J. Chen, L.J. Liu, H. Tezuka, Y. Usuki and K. Kakimoto, Optimization of the design of a crucible for a SiC sublimation growth system using a global model. Journal of Crystal Growth. 2008, 310,(7-9): 1810-1814.    doi: 10.1016/j.jcrysgro.2007.11.016 [SCI 已检:300RP, EI已检: 081411187159, ISTP已检: 300RP]

30.   D. Kashiwagi, R. Gejo, Y. Kangawa, L.J. Liu, F. Kawamura, Y. Mori, T. Sasaki and K. Kakimoto, Global analysis of GaN growth using a solution technique. Journal of Crystal Growth. 2008, 310(7-9):1790-1793.   doi:10.1016/j.jcrysgro.2007.10.061 [SCI 已检: 300RP, EI已检: 081411187135, ISTP已检: 300RP]

31.   H. Miyazawa, L.J. Liu and K. Kakimoto, Numerical analysis of influence of crucible shape on interface shape in a unidirectional solidification process .Journal of Crystal Growth.2008,310(6): 1142-1147.    doi: 10.1016/j.jcrysgro.2007.12.056 [SCI 已检: 285ZF, EI已检:  080911122919]

32.   H. Miyazawa, L.J. Liu, S. Hisamatsu and K. Kakimoto, Numerical analysis of influence of tilt of crucibles on interface shape and fields of temperature and velocity in a unidirectional solidification process. Journal of Crystal Growth. 2008,310(6):1034-1039. doi: 10.1016/j.jcrysgro.2007.12.021 [SCI 已检: 285ZF, EI已检: 080911122902]

33.   L.J. Liu, K. Kakimoto, Effects of crystal rotation rate on the melt-crystal interface of a CZ-Si crystal growth in a transverse magnetic field. Journal of Crystal Growth. 2008, 310(2): 306-312.   doi: 10.1016/j.jcrysgro.2007.10.043 [SCI已检: 254YM, EI已检: 075211001274]

34.   K. Kakimoto, L.J. Liu, H. Miyazawa, S. Nakano, D. Kashiwagi, X.J. Chen,Y. Kangawa, Numerical investigation of crystal growth process of bulk Si and nitrides – a review. Crystal Research and Technology. 2007, 42(12):1185-1189. [SCI已检: 241WF, EI已检: 075110981836, ISTP待检]

35.    X.J. Chen, L.J. Liu, H. Tezuka, Y. Usuki, K. Kakimoto, Numerical investigation of induction heating and heat transfer in a SiC growth system. Crystal Research and Technology. 2007,42(10): 971-975.  doi: 10.1002/crat.200710970 [SCI已检: 219UJ, EI已检: 074210872857]

36.   L.J. Liu, S. Nakano and K. Kakimoto, Three-dimensional global modeling of a unidirectional solidification furnace with square crucibles. Journal of Crystal Growth. 2007, 303(1): 165-169.                   doi: 10.1016/j.jcrysgro.2006.11.274 [SCI已检:166NY, EI 已检: 071510548645, ISTP已检:166NY]

37.   K. Kakimoto and L.J. Liu, Partly three-dimensional calculation of silicon Czochralski growth with a transverse magnetic field. Journal of Crystal Growth. 2007, 303(1):135-140.   DOI: 10.1016/j.jcrysgro.2006.11.152  [SCI已检: 166NY, EI 已检:  071510548624, ISTP已检: 166NY]

38.   J. Li, L.J. Liu, Z.P. Feng, Numerical prediction of the hydrodynamic performance of a centrifugal pump in cavitating flows. Communications in Numerical Methods in Engineering. 2007, 23(5): 363-384.      DOI: 10.1002/cnm.909  [SCI已检: 163NA, EI 已检: 072010601348]

39.   Nakano S, Liu LJ and Kakimoto K (2007), Analysis of temperature distribution while growing multi-crystalline silicon in a casting method with multi heater system (マルチヒーターを使用した一方向性凝固法によるシリコン多結晶育成時の熱流動解析), Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 132, March 2007, pp. 27-36 [in Japanese]

40.   L.J. Liu, S. Nakano, K. Kakimoto, Investigation of oxygen distribution in electromagnetic CZ-Si melts with a transverse magnetic field using 3D global modeling. Journal of Crystal Growth.2007, 299(1): 48-58.       doi: 10.1016/j.jcrysgro.2006.10.247 [SCI已检: 141OG, EI已检: 070510406331]

41.   Kakimoto K and Liu LJ (2006), Flow instability of silicon melt in magnetic fields, FDMP: Fluid Dynamics and Materials Processing, vol. 2, no. 3, pp. 167-173, 2006  [EI待检]

42.   J. Li, L.J. Liu and Z.P. Feng, Two-dimensional analysis of cavitating flows in a centrifugal pump using a single-phase Reynolds averaged Navier-Stokes solver and cavitation model. Proceedings of the Institution of Mechanical Engineers Part A – Journal of Power and Energy. 2006,220(7):783-791.    DOI: 10.1243/09576509JPE221   [SCI已检: 105CF, EI已检: 064810264338] 

43.   K. Kakimoto, L.J. Liu and S. Nakano S, Analysis of temperature and impurity distributions in a unidirectional-solidification process for multi-crystalline silicon of solar cells by a global model. Materials Science and Engineering B – Solid State Materials for Advanced Technology.2006, 134(2-3):269-272.      DOI: 10.1016/j.mseb.2006.06.040 [SCI已检: 112FT, EI已检: 064410211420, ISTP已检: 112FT]

44.   Nakano S, Liu LJ and Kakimoto K (2006), Analysis of temperature distribution and melt-solid interface shape in multi-crystalline silicon of a casting method with multi heater system (マルチヒーターを使用した一方向性凝固法によるシリコン多結晶の固液界面形状熱流動解析), Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 131, September 2006, pp. 31-38  [in Japanese]

45.   L.J. Liu, L. Li, Z.P. Feng, A numerical method for simulation of attached cavitation flows. International Journal for Numerical Methods in Fluids. 2006,52(6):639-658. DOI: 10.1002/fld.1192 [SCI094EP, EI已检: 064310196345]

46.   L.J. Liu, S. Nakano, K. Kakimoto, Dynamic simulation of temperature and iron distributions in a casting process for crystalline silicon solar cells with a global model. Journal of Crystal Growth. 2006, 292(2): 515-518.
 DOI: 10.1016/j.jcrysgro.2006.04.060 [SCI
已检: 069WX, EI已检: 062910007672, ISTP已检: 069WX]

47.   L.J. Liu, K. Tanahashi, H. Yamada-Kaneta, Y. Kangawa, K. Kakimoto, Enhancement of the diffusion of oxygen and boron in silicon crystals under irradiation of infrared laser light. Journal of Applied Physics.2006,99(7): 1-4  [SCI已检:032JO, EI已检: 06179841612]

48.   Nakano S, Liu LJ, Kakimoto K (2006), Analysis of temperature distribution in multi-crystalline silicon of a casting method with multi heater system, Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 130, March 2006, pp. 21-27 [in Japanese]

49.   Li J, Liu LJ, Feng ZP (2006), Numerical validation of computational model for sheet cavitating flows, Chinese Journal of Mechanical Engineering, Vol. 19, No. 1, 2006, pp. 45-49  [EI已检: 06269966197]

50.   Liu LJ, Nakano S, Kakimoto K (2005), Advancement of numerical investigation of a silicon Czochralski growth with application of a transverse magnetic field, Journal of the Japanese Association for Crystal Growth, Vol. 32, No. 4, 2005, pp. 306-313, [Invited review article]

51.   L.J. Liu, S. Nakano, K. Kakimoto, An analysis of temperature distribution near the melt-crystal interface in silicon Czochralski growth with a transverse magnetic field, Journal of Crystal Growth. 2005, 282(1-2): 49-59 [SCI已检: 955BY, EI已检: 05319274416]

52.   L.J. Liu, K. Kakimoto, Partly three-dimensional global modeling of a silicon Czochralski furnace . Principles, formulation and implementation of the model, International Journal of Heat and Mass Transfer. 2005, 48(21-22):4481-4491 [SCI已检:965BY, EI已检: 05359327937]

53.   L.J. Liu, K. Kakimoto, Partly three-dimensional global modeling of a silicon Czochralski furnace . Model application: Analysis of a silicon Czochralski furnace in a transverse magnetic field. International Journal of Heat and Mass Transfer. 2005, 48(21-22):4492-4497. [SCI已检: 965BY, EI已检: 05359328390]

54.   Liu LJ, Kitashima T, Kakimoto K (2005), Global Analysis of effects of magnetic field configuration on melt-crystal interface shape and melt flow in CZ-Si crystal growth, Journal of Crystal Growth, Vol. 275, No. 1-2, pp. e2135-e2139, 2005 [SCI待检, EI已检: 05159033756]

55.   Liu LJ, Kakimoto K (2005), 3D global analysis of CZ-Si growth in a transverse magnetic field with various crystal growth rates, Journal of Crystal Growth, Vol. 275, No. 1-2, pp. e1521-e1526, 2005 [SCI待检, EI已检: 05159033734]

56.   K. Kakimoto, L.J. Liu, T. Kitashima, A. Murakawa, Y. Hashimoto Y, Silicon crystal growth from the melt: Analysis from atomic and macro scales. Crystal Research and Technology. 2005,  40(4-5): 307-312. [SCI已检: 914WH, EI已检: 05409399020, ISTP已检: 914WH]

57.   L.J. Liu, K. Kakimoto, 3D global analysis of CZ-Si growth in a transverse magnetic field with rotating crucible and crystal. Crystal Research and Technology. 2005,40(4-5):347-351. [SCI已检: 914WH, EI已检: 05409399905, ISTP已检: 914WH]

58.   Liu LJ, Kakimoto K (2004), Numerical analysis of a TMCZ silicon growth furnace by using a 3D global model, Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 127, Sept 2004, pp.39-47

59.   Liu LJ, Tanaka T, Tsukamoto H (2004), Numerical Analysis of Cavitating Centrifugal Pump (1st Report, Validation of Model and Pump Steady Performance), Transactions of the Japan Society of Mechanical Engineers, Part B, Vol. 70, No. 694, pp. 1441-1449, June 2004, [in Japanese]   [EI已检: 04388359587]

60.   Tanaka T, Liu LJ, Akama S, Tsukamoto H (2004), Numerical analysis of cavitating centrifugal pump (2nd report, pump unsteady characteristics), Transactions of the Japan Society of Mechanical Engineers, Part B, Vol. 70, No.699, pp. 2813-2821, 2004, [in Japanese]   [EI已检: 05068824247]

61.   Li Jun, Liu LJ, Feng Zhenping (2004)Multiobjective Optimization of a Centrifugal Impeller Using Evolutionary AlgorithmsChinese Journal of Mechanical Engineering, (English Edition), Vol. 17, No. 3, September 2004389-393, [EI已检: 04508717239]

62.   Li Jun, Liu LJ, Feng Zhenping (2004)Suppression of the Secondary Flows in a Bend Pipe Using Navier-Stokes Solver and Evolutionary AlgorithmsJournal of Hydrodynamics, Ser. B, (English Edition), Vol. 16, No. 4, August 2004, 410-416 ,[EI已检: 04488687155]

63.   T. Kitashima, L.J. Liu, K. Kitamura, K. Kakimoto, Effects of shape of an inner crucible on convection of lithium niobate melt in a double-crucible Czochralski process using the accelerated crucible rotation technique. Journal of Crystal Growth. 2004, 267(3-4):574-582.       [SCI已检: 835LJ, EI已检: 04268236037]

64.   T. Kitashima, L.J. Liu, K. Kitamura, K. Kakimoto, Numerical analysis of continuous charge of lithium niobate in a double-crucible Czochralski system using the accelerated crucible rotation technique. Journal of Crystal Growth. 2004, 266(1-3):109-116.       [SCI已检: 821VA, EI已检: 04218176542, ISTP已检: 821VA]

65.   Kitashima T, Liu LJ, Hashimoto Y, Kakimoto K (2004), Mixing mechanism of the supplied raw material and effects of the raw material on melt temperature in a double-crucible Czochralski system using the accelerated crucible rotation technique, Reports of Research Institute for Applied Mechanics, Kyushu University, (ISSN 1345-5664), No. 126, March 2004, pp.41-46  [in Japanese]

66.   L.J. Liu, K. Kakimoto, T. Taishi, K. Hoshikawa. Computational Study of Formation Mechanism of Impurity Distribution in a Silicon Crystal During Solidification. Journal of Crystal Growth. 2004, 265( 3-4): 399-409.          [SCI已检: 817VN, EI已检: 04198151390]

67.   Liu LJ, Kitashima T, Kakimoto K (2003), Numerical Analysis of Effects of Crystal and Crucible Rotations on Melt-Crystal Interface Shape and Melt Flow in CZ Growth by Global Simulation, Rare Metals, Vol. 22, No. SUPPL., pp. 12-19, 2003    [SCI待检, EI已检: 04298271483]

68.   K. Kakimoto, L.J.Liu, Numerical Study of the Effects of Cusp-Shaped Magnetic Fields and Thermal Conductivity on the Melt-Crystal Interface in CZ Crystal Growth. Crystal Research and Technology.2003, 38:716-725.     [SCI: 707LQ, EI: 03357615254]

部分国内期刊发表的论文

1.       李早阳,刘立军,马文成,余庆华(2010),氩气流量对多晶硅定向凝固炉热场的影响工程热物理学报2011/2012年第32/33卷,201012月录用【编号103254

2.        刘鑫,刘立军,王元,柿本浩一(2010),几种湍流模型在晶体生长模拟中的应用及比较工程热物理学报, [Liu X, Liu LJ, Wang Y, Kakimoto K, Comparison and application of several turbulence models in simulation of crystal growth, Journal of Engineering Thermophysics], Vol.31, No. 9pp. 1500-150320109 [in Chinese]  EI20103913261066

3.       李军,刘立军,李国君,丰镇平(2010,空化数对离心泵水力性能影响的数值研究工程热物理学报, [Li J, Liu LJ, Li GJ, Feng ZP, Numerical investigations on effects of cavitation number on hydrodynamic performance of centrifugal pump, Journal of Engineering Thermophysics], Vol. 31, No. 5, pp. 773-776, May 2010 [in Chinese]  [EI待检20102312995684] 20102312995684

4.       李军,刘立军,李国君,丰镇平(2008),基于汽相/液相界面跟踪方法的弯管内空化流动的数值预测,工程热物理学报Dec. 2008, 2912pp. 2037-2039  {Li Jun, Liu Lijun, Li Guojun, Feng Zhenping (2008), Numerical prediction of cavitation flows in bend pipes using vapor/liquid interface tracking method, Journal of Engineering Thermophysics, Dec. 2008, 29(12): 2037-2039}  [in Chinese]  [EI已检: 20085111792141]

5.       李军,刘立军,李国君,丰镇平(2007),离心泵叶轮内空化流动的数值预测,工程热物理学报2007, 286pp. 948-950  {Li Jun, Liu Lijun, Li Guojun, Feng Zhenping (2007), Numerical prediction of cavitation flows in a centrifugal pump impeller, Journal of Engineering Thermophysics, 2007, 28(6): 948-950}  [in Chinese]  [EI已检: 074810951753]

6.       李军,刘立军,丰镇平 (2006),数值模拟两相汽蚀流动的新模型和算法,计算物理Vol.23, No.5, 2006, pp. 530-536 { Li J, Liu LJ, Feng ZP (2006), A model for two-phase cavitation flows, Chinese Journal of Computational Physics, Vol. 23, No.5, 2006, pp. 530-536 }  [in Chinese]  [EI已检: 064810278149]

7.       李军,刘立军,丰镇平(2006),基于界面跟踪方法的汽蚀模型和算法的有效性验证,工程热物理学报2006, 272pp. 238-240  {Li Jun, Liu Lijun, Feng Zhenping (2006), Numerical validation of the cavitation model and algorithm based on the liquid/vapor interface tracking method, Journal of Engineering Thermophysics, 2006, 27(2): 238-240}  [in Chinese]  [EI已检: 06179840469]

8.       李军,刘立军,丰镇平 (2006),附着空化流动下离心泵水力性能数值预测西安交通大学学报200640(3):257-260 {Li Jun, Liu Lijun, Feng Zhenping (2006), Numerical Prediction of Hydrodynamic Performance of Centrifugal Pump under Attached Cavitating Flows, Journal of Xi’an Jiaotong University, 2006, 40(3):257-260} [in Chinese] [EI已检: 06209882177]

9.       李军,刘立军,丰镇平 (2006),附着空化流动的模型和算法西安交通大学学报200640(3):253-256 {Li Jun, Liu Lijun, Feng Zhenping (2006), Attached Cavitation Model and Algorithms, Journal of Xi’an Jiaotong University, 2006, 40(3): 253-256} [in Chinese] [EI已检: 06209882176]

10.   刘立军徐忠张玮 (2002), 离心压缩机模型级内叶轮与扩压器动静干涉非定常流动的数值试验航空动力学报, Jan. 2002, 17 (1), pp. 58-64 {Liu LJ, Xu Z, Zhang W (2002), Numerical Experiment of the Unsteady Flow in a Centrifugal Compressor Stage Model Due to Impeller/Diffuser Interaction, Journal of Aerospace Power, Jan. 2002, 17 (1), pp. 58-64} [in Chinese]

11.   刘立军徐忠张玮 (2001), 离心压缩机模型级内叶顶间隙流动的数值试验西安交通大学学报, Sept. 2001, Vol.35, No.9, pp. 908-913 {Liu LJ, Xu Z, Zhang W (2001), Numerical Experiment of the Tip Leakage Flow in a Centrifugal Compressor Stage Model, Journal of Xi’an Jiaotong University, Sept. 2001, Vol.35, No.9, pp. 908-913} [in Chinese]   [EI已检: 02226959515]

12.   刘立军徐忠 (2001), 离心压缩机无叶扩压器内流场的试验测量与数值模拟, 西安交通大学学报, Mar. 2001, 35(3), pp. 270-274, {Liu LJ, Xu Z (2001), Experimental Measurements and Numerical Simulations of the Internal Flow Field in Vaneless Diffuser of a Centrifugal Compressor, Journal of Xi`an Jiaotong University, Mar. 2001, 35(3), pp. 270-274} [in Chinese]        [EI已检: 01536785069]

13.   李巍王国强刘立军 (2000), 离心叶轮内三维湍流的数值模拟上海交通大学学报, Jan. 2000, 34(1): 143-147 {Li W, Wang GX, Liu LJ (2000), Numerical Simulation of 3D Turbulent Flow in a Centrifugal Impeller, Journal of Shanghai Jiaotong University, Jan. 2000, 34(1): 143-147} [in Chinese]

14.   刘立军徐忠,史峰,魏显著 (1997), 大曲率弯道和叶柵内的湍流数值模拟空气动力学学报, June 1997; 15(2), pp. 169-176 {Liu LJ, Xu Z, et al (1997), Numerical Simulation of Turbulent Flow in Curved Duct and Cascade Passage with Strong Curvature, ACTA Aerodynamica SINICA, June 1997; 15(2), pp. 169-176}   [in Chinese]     [EI已检: 97113932713]

15.   李景银刘立军李超俊 (1997), 轴流压气机特性计算模型的研究机械工程学报, Apr.1997; 33(2), pp. 66-71 {Li JY, Liu LJ, Li CJ (1997), Study of Computational Models for Axial-Flow Compressor Performance Characteristics, Journal of Mechanical Engineering, Apr.1997; 33(2), pp. 66-71}  [in Chinese]    [EI已检: 97123979107]

16.   刘立军徐忠 (1996), 离心叶轮内部三维湍流流场的数值分析工程热物理学报, August 1996; 17(3), pp. 296-300 {Liu LJ, Xu Z (1996), Numerical Analysis of Three-Dimensional Turbulent Flow in a Centrifugal Impeller, Journal of Engineering Thermophysics, August 1996; 17(3), pp. 296-300} [in Chinese]

17.   刘立军徐忠史峰 (1996), 任意转速下旋转直通道内的流场数值分析航空学报, July 1996; 17(4) {Liu LJ, Xu Z, Shi F (1996), Numerical Analysis of Flow-Field in a Rotating Duct at Arbitrary Speed, ACTA Aeronautica ET Astronautica SINICA, July 1996; 17(4)} [in Chinese]

18.   李景银,刘立军李超俊 (1996), 多级轴流压气机失速边界预测方法研究西安交通大学学报, May 1996; 30(5) {Li JY, Liu LJ, Li CJ (1996), Prediction of the Stall Boundary in Multistage Axial Flow Compressor, Journal of Xi’an Jiaotong University, May 1996; 30(5)}  [in Chinese]