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地址:浙江省杭州市浙大路38号,浙江大学玉泉校区教十二333室
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电话:0571-87952882
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邮箱:jzlin@sfp.zju.edu.cn

林建忠

教授,博导

教育背景

  • 博士,北京大学,1991

  • 学士,浙江大学,1982

个人简介

林建忠教授1982年在浙江大学力学系获理学学士学位,1986年在浙江大学力学系获工学硕士学位,1991年在北京大学力学系获理学博士学位。作为项目负责人承担国家杰出青年基金项目、国家自然科学基金重点项目、国家自然科学基金重大项目子项目、科技部重大基础研究前期专项、国家八五攻关项目、国家自然科学基金面上项目、浙江省重大科技专项等科研项目30余项。获国家科技进步一等奖、国家级教学成果二等奖、高等学校科学研究优秀成果奖一等奖、浙江省科学技术一等奖2项、浙江省教学成果一等奖2项以及其它省部级科技奖励10余项。发表学术论文595篇,其中SCI收录212篇、EI收录246篇、ISTP(CPCI)收录41篇。获授权专利10项。出版专著8部、教材2部、参与编写手册1部。

研究方向

  • 多相流及纤维悬浮流

  • 微流体力学

  • 湍流及拟序结构

  • 流体机械

任职经历

2006.01-至今中国计量学院校长/教授
2003.04-2005.12 浙江大学机能学院力学系流体工程研究所系主任、所长/教授
2002.05-2003.03浙江大学机能学院力学系流体工程研究所教授
2001.09-2002.04浙江科技学院校长/教授
1999.02-2001.08杭州应用工程技术学院校长/教授
1996.05-1999.01杭州应用工程技术学院副校长/教授
1994.12-1996.04浙江大学力学系流体工程研究所副系主任、系主任/教授
1992.12-1994.11浙江大学力学系流体工程研究所副所长、副系主任/副教授
1991.08- 1992.11浙江大学力学系流体工程研究所讲师
1988.09- 1991.07北京大学力学系攻读博士
1986.08- 1988.08浙江大学力学系流体力学教研室助教、讲师

重要奖项

  • 2014年,“行业院校办学特色拓展与深化的路径研究与实践”获国家级教学成果二等奖(排名第一)、浙江省教学成果一等奖(排名第一);

  • 2012年,“微纳尺度多相与多组分复杂系统中流动机理的研究”获高等学校科学研究优秀成果奖(科学技术)一等奖(排名第一);

  • 2009年,“理念引领、制度保障、学科支撑,着力构建广义计量特色人才培养体系” 获浙江省教学成果一等奖(排名第一);

  • 2009年,“微细颗粒与微通道流场的研究”获浙江省科学技术一等奖(排名第一);

  • 2008年,入选浙江省特级专家;

  • 2007年,当选浙江省有突出贡献中青年专家;

  • 2006年,“多相与非牛顿流若干问题的研究及应用” 获浙江省科学技术一等奖(排名第一);

  • 2006年,评为浙江省优秀科技工作者;

  • 2004年,“流场拟序结构产生和演变机理及其控制的研究” 获浙江省科学技术二等奖(排名第一);

  • 2003年,《液压气动技术手册》获第十一届全国优秀科技图书二等奖(参编);

  • 2003年,“Numerical research on the coherent structure in a mixing layer with cross-shear”获浙江省自然科学优秀论文一等奖(排名第一);

  • 2002年,入选浙江省“新世纪151人才工程”重点资助培养对象;

  • 2002年,获陆增祺高科技奖励基金一等奖;

  • 1999年,国家自然科学基金杰出青年基金获得者;

  • 1999年,“叶轮机械的气固两相流基础” 或国家机械局科技进步三等奖(排名第二);

  • 1998年,“气固两相流风机研究开发”获浙江省科技进步三等奖(排名第一);

  • 1997年,入选国家人事部“百千万人才工程”第一、二层次;

  • 1997年,入选教育部“跨世纪优秀人才培养计划”;

  • 1997年,入选浙江省“151人才工程”第1层次;

  • 1996年,享受国务院特殊津贴;

  • 1996年,入选“浙江省自然科学基金青年科技人才专项培养计划”;

  • 1996年,入选省首批高校中青年学科带头人;

  • 1991年,“离心通风机内流理论及设计计算系统的研究与应用”获国家科学技术进步一等奖(排名第八);

  • 1988年,“Y10-21,Y8-24,Y10-24系列1,2,4吨/ 时工业锅炉引风机” 获国家机械电子工业部科学技术进步三等奖(排名第五)。

学术活动

  • 现任中国计量测试学会副理事长;

  • 现任全国质量监管重点产品检验方法标准化技术委员会副主任委员;

  • 现任中国空气动力学学会理事

  • 现任《Applied Mathematics and Mechanics》副主编、《排灌机械工程学报》副主编,《Journal of Hydrodynamics》执行编委;

  • 现任《Journal of Aerosol Science》,《Engineering Applications of Computational Fluid Mechanics》, 《International Journal of Nonlinear Sciences and Numerical Simulation》, 《The Journal of Computational Multiphase Flows》, 《Frontiers of Mechanical Engineering in China》, 《Egyptian-Chinese Journal of Computational and Applied Mathematics》,《力学学报》、《空气动力学学报》、《力学与实践》、《气体物理—理论与应用》等杂志编委;

  • 曾任中国力学学会常务理事;

  • 曾任中国力学学会流体力学专业委员会副主任委员;

  • 曾任中国力学学会多相流与非牛顿流专业组组长;

  • 曾任浙江省科协常委;

  • 曾任浙江省力学学会理事长;

  • 曾任《International Journal of Multiphase flow》副主编;

  • 曾任《力学进展》、《实验力学》编委。

重要专利

  1. 2009年,发明专利,“中浓纸浆湍流发生装置”,梁晓瑜,李月仙,王灿星,梁嘉麟,林建忠,ZL200910097709.7。

  2. 2010年, 发明专利,“基于纤维悬浮流设计准则的纸浆泵离心开式叶轮”,林建忠,张启华,李月仙,王灿星,ZL201010169554.6。

  3. 2010年, 发明专利,“预测泡状雾化喷嘴平均雾化粒径沿轴向演化趋势的方法”,钱丽娟,林建忠,熊红兵, ZL201010127806.9。

  4. 2010年, 发明专利,“判断雾化冲击射流液滴沉积附着于基板所需工况条件的方法”,钱丽娟,林建忠,熊红兵,ZL201010127807.3。

  5. 2010年, 发明专利,“雾化冲击射流中利用工况条件计算K数和We数的方法”, 林建忠,钱丽娟,熊红兵,ZL201010127809.2 。

  6. 2012年, 发明专利,“可避免纤维聚集的离心风扇及设有该离心风扇的离心风机”,黄利忠,林建忠,ZL2012 1 0104529.9。

  7. 2012年, 发明专利, “一种变频等离子射流中颗粒完全气化的方法”, 林建忠,钱丽娟,熊红兵,ZL201210237980.8。

  8. 2013年,发明专利,“一种消除毛细管电泳槽道中弯道扩散效应的方法”, 林建忠,钱丽娟,聂德明,袁方洋,ZL201310047865.9。

重要论文

  1. “An approximate method for solving turbulent velocity correlation functions in channel flows”, Lin Jianzhong, Huang Yongnian, Zhou Peiyuan, Chinese Science Bulletin, 1995, Vol.40, No.14, P1167-1172.

  2. “Numerical research on interactions of the rigid-rodlike polymer and the coherent structures in a mixing layer”, Yu Zhaosheng, Lin Jianzhong, Fan Xijun, J. of Nonnewtonian Fluid Mechanics,  1999,83,P1-18.

  3. “The effect of coherent structure in the particulate two-phase boundary layer on erosion”, Lin Jianzhong, Shen Liping, Zhou Zexuan, Wear, 2000, 241, P10- 16.

  4. “Wavelet analysis of coherent structures in a three-dimensional mixing layer”, Lin Jianzhong, Shao Xueming, Ni Liming, ACTA MECHANICA SINICA,2002, Vol.18, No.1, P42-52.

  5. “Numerical research on the coherent structure in a mixing layer with cross-shear”, Lin Jianzhong, Yu Zhaosheng, Shao Xueming, Journal of Fluid Structure, 2002, Vol.16, No.4, P487-495.

  6. “Numerical simulation of the sedimentation of cylindrical pollutant prticles in fluid”, Lin Jianzhong, Wang Yelong, Wang Weixiong, Yu Zhaosheng, Journal of Environmental Sciences, 2002, Vol.14, No.4, P433-438.

  7. “Stability in channel flow with fiber suspensions”, Lin Jianzhong, You Zhenjiang, Progress in Progress in Natural Science, 2003,Vol.13, No.2, P95-99.

  8. “Investigation of the interactions between two contacting fibers in the fiber suspensions”,Lin Jianzhong, Zhang Zhichao, Yu Zhaosheng, Journal of Material Science, 2003, Vol.38, No.7, P1499-1505.

  9. “Effects of the aspect ratio on the sedimentation of a fiber in Newtonian fluids”, Lin Jianzhong, Shi Xing, You Zhenjiang, Journal of Aerosol Science, 2003, Vol.34, No.7, P909-921.

  10. “Discontinuous Galerkin spectral element lattice Boltzmann method on triangular element”,  Shi Xing, Lin Jianzhong, Yu Zhaosheng, International Journal for Numerical Methods in Fluids, 2003, Vol.42, No.11, P1249-1261.

  11. “The motion of cylindrical particles in an evolving mixing layer”, Lin Jianzhong, Shi Xing,  Yu Zhaosheng, International of Journal of Multiphase flow, 2003, Vol.29, No.8, P1355-1372.

  12. “Research on particle dispersion in a plane mixing layer with coherent structure”,Lin Jianzhong,Lin Jiang,Shao Xueming, Shi Xing, ACTA MECHANICA SINICA,2003, Vol.19, No.6, P535-542.

  13. “Numerical research on the orientation distribution of fibers immersed in laminar and turbulent pipe flows”, Lin Jianzhong, Zhang Weifeng, Yu Zhaosheng, Journal of Aerosol Science, 2004, Vol.35, No.1, P63-82.

  14. “Hydrodynamic instability of fibre suspensions in channel flows”, You Zhenjiang, Lin Jianzhong, Yu Zhaosheng, Fluid Danymics Research, 2004, Vol. 34, No. 4, P251-271.

  15. “Study on the interaction of sedimenting cylindrical particles in still fluid”, Lin Jianzhong, Shao Xueming, Shi Xing, Yu Zhaosheng, ACTA MECHANICA SINICA,2004, Vol.20, No.1, P33-45.

  16. “Stability and drag reduction in transient channel flow of fibre suspensions”, You Zhenjiang, Lin Jianzhong, Shao Xueming, Zhang Weifeng, Chinese J. Chem. Eng., 2004, Vol.12, No.3, P.319-323.

  17. “Coherent structures in the mixing layers of a Non-Newtonian fluid”, Lin Jianzhong, Yu Zhaosheng, Shao Xueming, Journal of Turbulence, 2004, Vol.5, 039, P1-18.

  18. “Research on the interaction of three contact fibers in the fiber suspensions”, Lin Jianzhong, Chai Xiaochuan, James A. Olson, Journal of Material Science, 2005,Vol.40, No.5, P1183-1191.

  19. “The stress-microstructure relationship in an evolving mixing layer of fiber suspension”, Lin Jianzhong, Shi Xing, Yu Zhaosheng, ACTA MECHANICA SINICA, 2005, Vol.21, No.1, P16-23.

  20. “New equation of turbulent fiber suspensions and its solution and application to the pipe flow”, Lin Jianzhong, Li Jun, Zhu Li, James A. Olson, Chinese Physics, 2005, Vol.14, No.6, P 1185-1192.

  21. “Analysis of electro-osmotic flow characteristics at joint of capillaries with step change in ζ-potential and dimension”, Wang Ruijin, Lin Jianzhong, Li Zhihua, Biomedical Microdevices, 2005, Vol.7, No.2, P131-135.

  22. “Study on the impacting factors of transverse diffusion in the micro-channels of T-sensors”, Wang Ruijin, Lin Jianzhong, Li Zhihua, Journal of Nanoscience and Nanotechnology, 2005, Vol.5, No.8, P1281–1286.

  23. “Numerical prediction of fiber motion in a branching channel flow of fiber suspensions”,Lin Jianzhong, Zhang Shanliang, James A. Olson, ACTA MECHANICA SINICA,2005, Vol.21, No.4, P322 – 329.

  24. “Orientation distribution of cylindrical particles suspended in a turbulent pipe flow”, Zhang Lingxin, Lin Jianzhong , Chan T.L., Physics of Fluids, 2005, Vol.17, 093105, 1-8.

  25. “Sedimentation of short cylindrical pollutants with mechanical contacts”, Lin Jianzhong, Wang Yelong and Zhang Weifeng, Journal of Environmental Science, 2005, Vol.17, No.6, P906-911.

  26. “Numerical simulation of the flows over two tandem cylinders by lattice Boltzmann method”, Ku Xiaoke, Lin Jianzhong, Modern Physics Letters B, 2005, Vol.19, Nos. 28-29, P1551-1554.

  27. “Numerical analysis on a passive chaotic micromixer with helical microchannel”, Wang Ruijin, Lin Jianzhong, Journal of Nanoscience and Nanotechnology, 2006, Vol.6, No.1, P 190-194.

  28. “Rheological behavior of fiber suspensions in a turbulent channel flow”, Lin Jianzhong, Zhang Lingxin, Zhang Weifeng, Journal of Colloid and Interface Science, 2006, Vol.296, No.2, P721-728.

  29. “Mathematical modeling of turbulent fiber suspension and successive iteration solution in the channel flow” Lin Jianzhong, Gao Zhenyu, Zhou K, Chan T.L., Applied Mathematical Modeling, 2006, Vol.30, No.9, P1010-1020.

  30. “Simultaneous numerical simulation of nano and fine particle coagulation and dispersion in a round jet”, Chan T.L., Lin Jianzhong, Zhou Kun, Chan C.K., Journal of Aerosol Science, 2006, Vol. 37, No.11, P1545-1561.

  31. “Burnett simulations of flow and heat transfer in micro couette flow using second-order slip conditions”, Bao Fubing, Lin Jianzhong, Shi Xing, Heat and Mass Transfer, 2007, Vol.43, No.6, P559-566.

  32. “Computing orientation distribution and rheology of turbulent fiber suspensions flowing through a contraction”, Lin Jianzhong, Zhang Shanliang, James A. Olson, Engineering Computations, 2007, Vol.24, No.1, P52-76.

  33. “Chaotic mixing on a micromixer with barriers embedded”, Wang Ruijin, Lin Jianzhong, Li Huijun, CHAOS SOLITONS & FRACTALS, 2007, Vol.33, Issue 4, P1362-1366. 

  34. “Effect of fibers on the flow property of turbulent fiber suspensions in a contraction”, Lin Jianzhong, Zhang Shanliang, James A. Olson, Fibers and Polymers, 2007, Vol.8, No.1, P60-65.

  35. “Solution of 3D fiber orientation is 2D fiber suspension flows”, Zhou Kun, Lin Jianzhong, Chan, T.L., Physics of Fluids, 2007, 19, 113309, P1-12.

  36. “Temporal stability of a particle-laden jet”, Chan, T.L., Bao Fubing., Lin Jianzhong, Zhou Y., Chan, C.K.,7 International Journal of Multiphase Flow, 2008, Vol. 34, No.2, P176-187.

  37. “Numerical simulation of nanoparticle synthesis in diffusion flame reactor”, Yu Mingzhou, Lin Jianzhong, Chan, T.L., Powder Technology, 2008, Vol.181, No.1, Pages 9-20. 

  38. “Structure and properties of concentrated fiber suspensions in a shear flow”, Lin Jianzhong, Chai Xiaochuan, Fan Xijun, Modern Physics Letters B, 2008, Vol.22, No.9, P643-659.

  39. “Effect of precursor loading on non-spherical TiO2 nanoparticle synthesis in a diffusion flame reactor”, Yu Mingzhou, Lin Jianzhong, Chan, T.L., Chemical Engineering Science, 2008, Vol. 63, No.9, P2317-2329.

  40. “Orientation distribution of fibers and rheological property in fiber suspensions flowing in a turbulent boundary layer”, Lin Jianzhong, Sun Ke, Zhang Weifeng, ACTA MECHANICA SINICA, 2008, Vol.24, No. 3, P243-250.

  41. “Burnett simulation of gas flow and heat transfer in micro Poiseuille flow”, Bao Fubing, Lin Jianzhong, International Journal of Heat and Mass Transfer, 2008, Vol.51, P4139-4144.

  42. “A new moment method for solving the coagulation equation for particles in Brownian motion”, Yu Mingzhou, Lin Jianzhong, Chan T.L., Aerosol Science and Technology, 2008, Vol.42, 705-713.

  43. “Burnett simulations of gas flow in microchannels”, Bao Fubing, Lin Jianzhong, Fluid Dynamic Research,2008, Vol.40, No.9, P679-694.

  44. “Three-Dimensional simulation of effervescent atomization spray”, Xiong Hongbing, Lin Jianzhong, Zhu Zefei, Atomization and Sprays, 2009, Vol.19, No.1, P75-90.

  45. “On the non-linear instability of fiber suspensions in a Poiseuille flow”, Wan Zhanhong, Lin Jianzhong, Xiong Hongbin, International Journal of Non-Linear Mechanics, 2008, Vol.3, No.10, P898-907. 

  46. “The effect of non-linear interaction between gas and particle velocities on the hydrodynamic stability in the Blasius boundary layer”, Xie Mingliang, Lin Jianzhong, Zhou Huaichun, International Journal of Non-Linear Mechanics, 2009, Vol.44, No.1, P106-114.

  47. “Relationship between deposition properties and operating conditions for droplet onto surface in the atomization impinging spray”, Lin Jianzhong, Qian Lijuan, Xiong Hongbin, Powder Technology, 2009, Vol.191, Issue 3, P340-348.

  48. “Effects of operating conditions on the droplet deposition onto surface in the atomization impinging spray with an impinging plate”, Lin Jianzhong, Qian Lijuan, Xiong Hongbin, Surface and Coatings Technology, 2009, Vol.203, No.12, P1733-1740.

  49. “Fiber orientation distributions in a suspension flow through a parallel plate channel containing a cylinder”, Lin Jianzhong, Ku Xiaoke, Journal of Composite Materials, 2009, Vol.43,No.12, P1373-1390.

  50. “Solution of the agglomerate Brownian coagulation using Taylor-expansion moment method”, Yu Mingzhou, Lin Jianzhong, Journal of Colloid and Interface Science, 2009, Vol. 336, No. 1, P142-149.

  51. “Taylor-expansion moment method for agglomerate coagulation due to Brownian motion in the entire size regime”, Yu Mingzhou, Lin Jianzhong, Journal of Aerosol Science, 2009, Vol.40, No.6, P549-562.

  52. “Inertial effects on the rotational motion of a fiber in simple shear flow between two bounding walls”, Ku Xiaoke, Lin Jianzhong, Physica Scripta, 2009, Vol. 80, No.2, P025801.

  53. “Research on the transport and deposition of nanoparticles in a rotating curved pipe”, Lin Jianzhong, Lin Peifeng, Chen Huajun, Physics of fluids, 2009, Vol.21, 122001, P1-11.

  54. “A fluctuating lattice-Boltzmann model for direct numerical simulation of particle Brownian motion”, Nie Deming, Lin Jianzhong, Particuology, 2009, Vol.7, No.6, P501-506.

  55. “Binary homogeneous nucleation and growth of water-sulfuric acid nanoparticles using a TEMOM model”, Yu Mingzhou, Lin Jianzhong, International Journal of Heat and Mass Transfer, 2010, Vol.53, No.4, P635-644.

  56. “A LB-DF/FD method for particle suspensions”, Nie Deming, Lin Jianzhong, Communications in Computational in Physics, 2010, Vol.7, No.3, P544-563.

  57. “A review of research on cylindrical particulate flows”, Lin Jianzhong, Liang Xiaoyu, International Journal of Multiphase Flow, 2010, Vol.36, No.2, P93-99.  

  58. “Nanoparitcle-laden flows via moment method: A review”, Yu Mingzhou, Lin Jianzhong, International Journal of Multiphase Flow, 2010, Vol.36, No.2, P144-151.

  59. “A fitting formula for predicting droplet mean diameter for various liquid in effervescent atomization spray”, Qian Lijuan, Lin Jianzhong, Hongbin Xiong, Journal of Thermal Spray Technology, 2010, Vol.19, No.3, P1544-1016.

  60. “A new formula for predicting the velocity distribution in the turbulent fiber suspensions of a channel flow”, Lin Jianzhong, Shen Suhua, Fibers and Polymers, 2010, Vol.11, No.3, P438-447.

  61. “Nanoparticle nucleation and coagulation in a mixing layer”, Lin Jianzhong, Liu Yanhua, ACTA MECHANICA SINICA, 2010, Vol.26, No.4, P521-529.  

  62. “A theoretical model of turbulent fiber suspension and its application to the channel flow” Lin Jianzhong, Shen Suhua, Science China. 2010, Vol.53, No.9, P1659-1670.

  63. “Rheological properties of fiber suspensions flowing through a curved expansion duct”, Lin Jianzhong, Zhang Qihua, Zhang Kai, Polymer Engineering and Science, 2010 Vol.59, No.10, P1994-2003.

  64. “Numerical modeling in radio frequency suspension plasma spray of zirconia powders”, Qian Lijuan, Lin Jianzhong, Xiong Hongbing, Plasma Chemistry and Plasma Processing, 2010, Vol.30, No.6, P733-760. 

  65. “Continuum simulation of microscale backward-facing step flow in transition regime”, Bao Fubing, Lin Jianzhong, Numerical Heat Transfer Part A-Applications, 2011, Vol.59, No.8, P616-632.

  66. “The oblique collision efficiency of nanoparticles at different angles in Brownian coagulation”, Wang Yuming, Lin Jianzhong, Computers and Mathematics with Applications, 2011, Vol.61, No.8, P1917-1922.

  67. “The verification of the Taylor-expansion moment method for the nanoparticle coagulation in the entire size regime due to Brownian motion”, Yu Mingzhou, Lin Jianzhong, Jin Hanhui, Jiang Ying, Journal of Nanoparticle Research, 2011, Vol.13, No.5, P2007-2020.  

  68. “New formula for the drag coefficient of cylindrical particles”, Guo Xiaohui, Lin Jianzhong, Nie Deming, Particuology, 2011, Vol.9, No.2, P114-120.  

  69. “Modeling of non-newtonian suspension plasma spraying in an inductively coupled plasma torch”, Qian Lijuan, Lin Jianzhong, Xiong Hongbing, International Journal of Thermal Sciences, 2011, Vol.50, No.8, 1417-1427.  

  70. “Nanoparticle distribution in a rotating curved pipe considering coagulation and dispersion”, Lin Jianzhong, Lin Peifeng, Chen Huajun, Science China: Physics, Mechanics and Astronomy, 2011, Vol.54, No.8, P1502-1513.

  71. “Theoretical Investigation of the Influence of Liquid Physical Properties on Effervescent Atomization Performance”, Qian Lijun, Lin Jianzhong, Xiong Hongbin, Chan T.L., Journal of Fluids Engineering –Transactions of the ASME, 2011, Vol.133, 101205-1-11.

  72. “Fiber orientation distribution in turbulent fiber suspensions flowing through an axisymmetric contraction”, Lin Jianzhong, Liang Xiaoyu, Zhang Shanliang, The Canadian Journal of Chemical Engineering, 2011, Vol.29, No.6, P1415-1425.

  73. “Research on bimodal particle extinction coefficient during Brownian coagulation and condensation for the entire particle size regime”, Tang Hong, Lin Jianzhong, Journal of Nanoparticle Research, 2011, Vol.13, No.12, P7229-7245.

  74. “Dynamics of two elliptical particles sedimentation in a vertical channel: chaotic state”, Nie Deming, Lin Jianzhong, International Journal of Computational Fluid Dynamics, 2011, Vol.25, No.7, P401-406.

  75. “A lattice Boltzmann-direct forcing/sictitious domain model for Brownian particles in fluctuating fluids”, Nie Deming, Lin Jianzhong, Communications in Computational in Physics, 2011, Vol.9, No.4, P959-973.  

  76. “Effects of inter-particle interactions and hydrodynamics on the Brownian coagulation rate of polydisperse nanoparticles”, Lin Jianzhong, Wang Yuming, Modern Physics Letters B, 2012, Vol.26, No.3, DOI No: 10.1142/S0217984911500102.

  77. “Attachment efficiency of polydisperse nanoparticles wall-deposition”, Wang Yuming, Lin Jianzhong, KONA Powder and Particle Journal, 2011, No.29, P158-167.

  78. “Theoretical estimation of extinction coefficient due to time evolution of particle size distribution”, Tang Hong, Lin Jianzhong, Particulate Science and Technology, 2012, Vol.30, No.4, P297-315.

  79. “Numerical simulation of fiber orientation distribution in round turbulent jet of fiber suspension” Lin Jianzhong, Liang Xiaoyu, Zhang Shanliang, Chemical Engineering Research & Design, 2012, Vol.90, No.6, P766-775.

  80. “Nanoparticle migration in a fully developed turbulent pipe flow considering the particle coagulation”, Lin Jianzhong, Liu Song, Chan T.L., Chinese Journal of Chemical Engineering, 2012, Vol.20, No.4, P679-685.

  81. “Simulation of the Brownian coagulation of nanoparticles with initial bimodal size distribution via moment method”, Lin Jianzhong, Gan Fujun, Yu Mingzhou, 2012. No.ACAT MECHANICA SINICA, 2012, Vol.28, No.5, P1227-1237.

  82. “Retrieval of spheroid particle size distribution from spectral extinction data in the independent mode using PCA approach”, Tang Hong, Lin Jianzhong, Journal of Quantitative Spectroscopy and Radiative Transfer, 2013, Vol.115, No.1, P78-92.

  83. “A successive iteration method on predicting properties of turbulent fiber suspensions and its application to pipe flows”, Lin Jianzhong, Liang Xiaoyu, Ku Xiaoke, Computers & Fluids, 2013, Vol.71, P461-468.

  84. “Numerical prediction of the flow property in round turbulent jet of fiber suspension”, Lin Jianzhong, Liang Xiaoyu, Shen Suhua, Science China: Physics, Mechanics and Astronomy, 2013, Vol.56, No.2, P198-305.

  85. “Early-stage evolution of particle size distribution with Johnson's SB function due to Brownian coagulation in the moment model”, Tang Hong, Lin Jianzhong, Physica Scripta, 2013, Vol. 87, No.5, 055401.

  86. “Direct numerical simulations of the decaying turbulence in rotating flows via the MRT-lattice Boltzmann method”, Nie Deming, Lin Jianzhong, Qiu Limin, International Journal of Computational Fluid Dynamics, 2013, Vol.27, No.3, P173-183.

  87. “Characteristics of fiber suspension flow in a turbulent boundary layer”, Lin Jianzhong, Shen Suhua, Ku Xiaoke, Journal of Engineered Fibers and Fabrics, 2013, Vol.8, No.1, P17-29.

  88. “Parametric study on suspension behavior in an inductively coupled plasma”, Qian Lijuan, Lin Jianzhong, Yu Mingzhou, Journal of Thermal Spray Technology, 2013, Vol.22, No.6, P1024-1034.

  89. “Poiseuille flow-induced vibrations of two cylinders in tandem arrangement”, Lin Jianzhong, Jiang Renjie, Chen Zhongli, Ku Xiaoke, Journal of Fluids and Structures , 2013, Vol.40, P70-85.

  90. “Vibrations of cylindrical objects obstructing a Poiseuille-type flow”, Jiang Renjie, Lin Jianzhong, Chen Zhongli, Physical Review E, 2013, Vol.88, No.2, 023009, P1-9.

  91. “Modeling of scattering properties of mineral aerosols using modified beta function”, Tang Hong, Lin Jianzhong, Journal of Geophysical Research :Atmospheres, 2013, Vol.118, No.11, P5570-5587 .

  92. “A modified TEMOM model of Brownian coagulation of nanoparticles based on the asymptotic solution of sectional method”, Lin Jianzhong, Chen Zhongli, Science China Technological Sciences, 2013, Vol. 56, No.12, P3081-3092.

  93. “Direct expansion method of moments for nanoparticle Brownian coagulation in the entire size regime”, Chen Zhongli, Lin Jianzhong, Yu Mingzhou, Journal of Aerosol Science, 2014, Vol.67, No.1, P28-37.

  94. “Three-dimensional fiber orientation of fiber suspensions flowing through a rotating curved expansion duct”, Lin Jianzhong, Zhang Qihua, Fibers and Polymers, 2014, Vol.15, No.,2 P364-372.

  95. “Numerical predictions of flows past two tandem cylinders of different diameters under unconfined and confined flows”, Jiang Renjie, Lin Jianzhong, Chen Zhongli, Ku Xiaoke, Fluid Dynamics Research, 2014, Vol.46, No.1, 025506, P1-22.

  96. “Penetration efficiency and distribution of aerosol particles in turbulent pipe flow undergoing coagulation and breakage”, Lin Jianzhong, Yin Zhaoqin, Gan Fujun, Yu Mingzhou, International Journal of Multiphase flow, 2014, Vol.61, 28-36.

  97. "Numerical prediction of an anomalous biased oscillation regime in vortex-induced vibrations of two tandem cylinders", Lin Jianzhong, Jiang Renjie, Ku Xiaoke, Physics of Fluids, 2014, 26, 034102, P1-20. http://dx.doi.org/10.1063/1.4868278.

  98. “Asymptotic behavior of Taylor-expansion method of moments for solving coagulation equation for Brownian particles”, Chen Zhongli, Lin Jianzhong, Yu Mingzhou, Particuology, 2014, Vol.14, P124-129.

  99. “Direct numerical simulation of multiple particles sedimentation at an intermediate Reynolds number”, Nie Deming, Lin Jianzhong, Zheng Mengjiao, Communications in Computational Physics, 2014, Vol.16, No.3, 675-698.

  100. “Numerical simulation of turbulence modulation by cylindrical particles in a round jet”, Lin Jianzhong, Shen Suhua, Engineering Applications of Computational Fluid Mechanics, 2014, Vol.8, No.3, P345-355.

  101. “Inversion of visible optical extinction data for spheroid particle size distribution based on PCA”, Tang Hong, Lin Jianzhong, Optik - International Journal for Light and Electron Optics, 2014, Vol.125, P5494–5507.

  102. “Hydrodynamic instability of nanofluids in a channel flow”, Lin Jianzhong, Xia Yi, Bao Fubin, Fluid Dynamics Research, 2014, Vol.46, No.5, P055512-1-13.

  103. “Friction factor and heat transfer of nanofluids containing cylindrical nanoparticles in laminar pipe flow”, Lin Jianzhong, Xia yi, Ku Xiaoke, Journal of Applied Physics, 2014, Vol.116, 133513-1-11.

  104. “Flow-induced vibrations of two tandem circular cylinders in a parallel-wall channel”, Jiang Renjie, Lin Jianzhong, Ku Xiaoke, Physics of Fluids, 2014, 26, 104102, P1-21. http://dx.doi.org/10.1063/1.4898341.

  105. “Pressure drop and heat transfer of nanofluid in turbulent pipe flow considering particle coagulation and breakage”, Lin Jianzhong, Xia Yi, Ku Xiaoke, Journal of Heat Transfer-Transactions of the ASME, 2014, Vol.136, No.11, 111701-1-9.

  106. “A direct expansion method of moments for Brownian coagulation”, Chen Zhongli, Lin Jianzhong, Yu Mingzhou, Physica Scripta, 2014, Vol.89, No.12,125204.

  107. “A new analytical solution for solving the population balance equation in the continuum-slip regime ”, Yu Mingzhou, Lin Jianzhong, Martin Seipenbusch, Journal of Aerosol Science, 2015, Vol.80, No.2, P1-10.

  108. “Applicability of molecular dynamics method to the pressure-driven gas flow in finite length nano-scale slit pores”, Bao Fubing, Huang Yuanlin, Oiu Limin, Lin Jianzhong, Molecular Physics, 2015, Vol.113, No.6, P561-569. http://dx.doi. org/10.1080/00268976.2014.960495.

  109. “An analytical solution for the population balance equation using a moment method”, Yu Mingzhou, Lin Jianzhong, Cao Junji, Martin Seipenbusch, Particuology, 2015, Vol.18, No.1, P194-200.

  110. “Investigation of pressure-driven gas flows in nanoscale channels using molecular dynamics simulation”, Bao Fubing, Huang Yuanlin, Zhang Yonghao, Lin Jianzhong, Microfluidics and Nanofluidics, 2015, Vol. 18, No. 5-6, P1075-1084, DOI 10.1007/s10404-014-1498-4.

  111. “Distribution and penetration efficiency of nanoparticles in pipe bends under laminar and turbulent flow conditions”, Lin Jianzhong, Yin Zhaoqin, Lin Peifeng, Yu Mningzhou, Ku Xiaoke, International Journal of Heat and Mass Transfer, 2015, Vol.85, P61-70.

  112. “Behavior of three circular particles in a confined power-law fluid under shear”, Nie Deming, Lin Jianzhong, Journal of Non-Newtonian Fluid Mechanics, 2015, Vol.221, P76-94. 

其它发表物

专著

  1. 《叶轮机械的气固两相流基础》

  2. 《湍流的拟序结构》

  3. 《纤维状粒子悬浮流动力学分析》

  4. 《流场拟序结构及控制》

  5. 《流—固两相拟序涡流及稳定性》

  6. 《超常颗粒多相流体动力学—圆柱状颗粒两相流》

  7. 《微纳流动理论及应用》

  8. 《纳米颗粒两相流体动力学》

教材

  1. 《湍动力学》

  2. 《流体力学》

手册

《液压气动技术手册》

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