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郑连存
郑连存
教授、博士生导师

姓  名: 郑连存
性  别:
技术职称: 教授、博士生导师
所在系所: 应用数学系
所在梯队: 偏微分方程理论及其应用梯队
社会兼职: 1. 北京市数学学会常务理事, 北京市数学学会大学工作委员会副主任。
2.美国物理学会会员。
3.中国力学学会高级会员。
4. 国际微分方程学会会员。
5. 国家奖励办咨询专家。
6.《数学的实践与认识》杂志编委
7.《数学研究期刊》杂志编委
8. Editorial Board Member, Applications and Applied Mathematics(AAM)
9. Editorial Board Member, Editorial Board of the Geomaterial.
10. Editorial Board Member, Chemistry & Materials Science
11. Guest Editors, International Journal of Applied Mathematics and Statistics.
12. Guest Editors, Mathematical & Computational Applications.
13. Editorial Board Member, Studies in Nonlinear Sciences (SNS)
   
电子邮件: liancunzheng@sina.com
研究领域: 偏微分方程理论及应用、多孔介质流动, 传热传质、反应扩散、微分方程非线性边界值问题等交叉学科的研究
   

简历

 

学习经历:
1996.8 东北大学热能工程系,攻读博士学位,1998.3毕业,获博士学位。
1992.8 东北大学数学系,攻读硕士学位,1995.3毕业,获硕士学位。
1978.8 河北师范学院数学系,本科学习,1982.6毕业,获学士学位。
2000.6至今 在北京科技大学数学力学系工作。
1998.6-2000.6 北京航空航天大学流体所做博士后。
1992.7-1996.8 河北理工学院工作。
1982.8-1992.8 唐山市第十中学工作。
获奖专利鉴定:
获北京市2010科学技术进步二等奖《幂律流体非常规边界层传递行为研究》
2011年获得北京科技大学优秀科研成果奖《基于分形动力学的反常流动和传热传质行为研究》
2011获得北京科技大学研究生优秀指导教师奖
2010获得北京科技大学本科教学优秀奖
2009获得北京科技大学第四届研究生教学优秀奖
2008年获得北京科技大学优秀科研成果奖
2008年获得北京科技大学论文二等奖
2007年获得北京科技大学本科教学一等奖
科研项目:
(1) 主持国家自然基金项目:幂律非牛顿流体介质反常传热特性研究,(No.51276014), 2013.01-2016.12.
(2) 主持国家自然基金项目:纳米流体微纳粒子(团)反常输运的微结构和动力学特性(No.51076012),2011.01-2013.12.
(3) 作为合作单位第一负责人承担国家自然基金重点项目:受控脉冲穿孔等离子弧焊接熔池与小孔耦合传热机理的研究(No.50936003), 2010.01 -2013.12.
(4) 主持国家自然基金项目(No.50476083):具有连续移动、延伸表面的幂律流体边界层传递行为研究,2005.01-2007.12.
(5) 主持冶金研究院基础研究课题,2010.03-2012,03.
(6) 主持新材料国家重点实验室开放课题, 2010.03-2012,03.
(7) 参与国家经贸委重点课题:干熄焦装置工艺技术开发,2001.8~2003.8.
(8) 参加北京市教委共建基金项目(妫水湖防止富营养化和蓝藻水华发展复合生态工程项目)2006. 01-2009.12.
(9) 主持合作课题:复杂流动及传热现象的研究与计算,2001.11~2003.7.
(10) 北京科技大学自选课题:不规则表面具有反应扩散的非牛顿流动与传热,2003.1~2003.12,校自选课题.
(11) 北京科技大学研究生院研究基金:带参N幂律方程输运行为的研究与预测,2004.01 - 2005.12.
(12) 第二十六批博士后科学基金,旋成体非对称涡的数值模拟,1999.06-2000.06.
代表性论著:

2015年

1.    Shengting Chen, Liancun Zheng, Bingyu Shen, Xuehui Chen, Time-space dependent fractional boundary layer flow of Maxwell fluid over an unsteady stretching surface, Theoretical and Applied Mechanics Letters, 5 (2015) 262–266

2.    Chaoli Zhang, LiancunZheng, Yongyue, Jiang, XinxinZhang,Unsteady Natural Convection Heat Transfer of Nanofluid in an Annulus with a Sinusoidally Heated Source, Numerical heat transfer, Part A: Applications,DOI: 10.1080/10407782.2015.1052313 SCI.Impact Factor:1.803,美国(2区).(JCR:Q1).

3.    Yanhai Lin, LiancunZheng,Botong Li, Lianxi Ma, A new diffusion for laminar boundary layer flow of power law fluids past a flat surface with magnetic effect and suction or injection, Int.J.Heat Mass Transfer, 84(2015) 1090–1097, SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

4.    Jing Zhu, Dan Yang, LiancunZheng, Xinxin Zhang, Effects of second order velocity slip and nanoparticles migration on flow of Buongiorno nanofluid, Applied Mathematics Letters, 52(2016)183-191,Impact Factor:1.371,美国(2区).(JCR:Q1)

5.    Liancun Zheng,Chengru Jiao, Yanhai Lin, Lianxi Ma, Marangoni convection heat and mass transport of power-law fluid in porous medium with heat generation and chemical reaction, Heat transfer Engineering, accepted, SCI.Impact Factor:0.814, 美国( 区).(JCR:Q    )

6.    Bingyu Shen, Liancun Zheng,Shengting Chen,Fractional boundary layer flow and radiation heat transfer of MHD viscoelastic fluid over an unsteady stretching surface, AIP Advances, AIP ADVANCES 5, 107133 (2015)SCI.Impact Factor:1.524,美国(3区).(JCR:Q1)

7.    Bingyu Shen, Liancun Zheng, Chaoli Zhang, Xinxin Zhang, Bioconvection heat transfer of a nanofluid over a stretching sheet with velocity slip and temperature jump, Thermal Science, doi:10.2298/TSCI150424128S, SCI. Impact Factor:1.09, 塞尔维亚(4区).(JCR:Q2).

8.    Chunrui Li, Liancun Zheng, Xinxin Zhang, Goong Chen,  Flow and heat transfer of a generalized Maxwell fluid modified fractional Fourier’s law and Darcy’s law, Computers and Fluids, 125(2016)25-38. Impact Factor:1.997法国(3区).(JCR:Q2)

9.    Ulrich Olivier Dangui-Mbani, Jize Sui, Chunying Ming, Liancun Zheng, Goong Chen, Heat transfer analysis for a free boundary problem arising in N-diffusion equation, Propulsion and Power Research, accepted,SCI. Impact Factor:中国(3区).(JCR:Q2)

10. Chengru Jiao, Liancun Zheng, Yanhai Lin, Lianxi Ma, Goong Chen, Marangoni abnormal convection heat transfer of power-law fluid driven by temperature gradient in porous medium with heat generation, Int. J. Heat Mass Transfer,92 (2016) 700–707,SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1).

11. Chengru Jiao, Liancun Zheng, Lianxi Ma, MHD thermosolutal marangoni convection heat and mass transport of power law fluid driven by temperature and concentration Gradient, AIP Advances, 5(2015) 087160,SCI.Impact Factor:1.524,美国(3区).(JCR:Q1)

12. Jize Sui,LiancunZheng, Xinxin Zhang, Convection heat transfer of power law fluids along the inclined non-uniformly heated plate with suction or injection, Journal of heat transfer-T AMSE, Doi:10.1115/1.4031109, SCI.Impact Factor: 1.830, 美国(2区).(JCR:Q1)

13. Shengting Chen, Liancun Zheng, Chunrui Li ,Time-space dependent fractional viscoelastic MHD fluid flow and heat transfer over accelerating plate with slip boundary, Thermal Science, doi:10.2298/TSCI150424128S, SCI. Impact Factor:1.09, 塞尔维亚(4区).(JCR:Q2).

14. Chenguang Yin, LiancunZheng, Chaoli Zhang, Xinxin Zhang,Flow and heat transfer of nanofluids over a rotating porous disk with velocity slip and temperature jump, ZeitschriftfürNaturforschung,DOI 10.1515/zna-2015-0031, 351-358, SCI.Impact Factor:, 0.74( 4 区).(JCR:Q3)

15. Jinhu Zhao, Liancun Zheng, Xinxin Zhang, Forced convection heat transfer of non-Newtonian Cross fluid in a square cavity, Heat transfer researsh, Accepted, SCI.Impact Factor:

16. Chenguang Yin, LiancunZheng, Chaoli Zhang, Xinxin Zhang,Flow and heat transfer of  nanofluids over a rotating disk with uniform stretching rate in the radial direction, Propulsion and Power Research, Accepted, SCI. Impact Factor:,    中国(3区).(JCR:Q2)

17. Chaoli Zhang, LiancunZheng, Xinxin Zhang,Goong Chen,MHD flow and radiation heat transferof nanofluids in porous media with variable surface heat flux and chemical reaction, Applied Mathematical Modelling,39(2015)165-181.Impact Factor: 1.375, 美国(2区).(JCR:Q1)

18. Shihao Han, LiancunZheng, Xinxin Zhang,Slip effects on a generalized Burgers' fluid flow between two side walls with fractional derivative, Journal of the Egyptian Mathematical Society, accepted,埃及.

19. Jize Sui, LiancunZheng, Xinxin Zhang,Goong Chen,Mixed convection heat transfer in power law fluids over a moving conveyor along an inclined plate, Int. J. Heat Mass Transfer,85(2015)1023-1033, SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

20. Aijie Liu, LiancunZheng; Lianxi Ma, Xinxin Zhang, Analytical Solutions of a Model for  Brownian Motion in the Double Well Potential, Commun. Theor. Phys. 63 (2015) 51-56. SCI.Impact Factor:0.579, 中国.(JCR:Q3)

21. Yanhai Lin, LiancunZheng, Xinxin Zhang, Lianxi Ma, Goong Chen, MHD pseudo-plastic nanofluid unsteady flow and heat transfer in a finite thin film over stretching surface with internal heat generation, Int.J.Heat Mass Transfer, 84(2015)903-911SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

22. Yanhai Lin, LiancunZheng, Xinxin Zhang, MHD Marangoni Boundary Layer Flow and Heat Transfer of Pseudo-Plastic Nanofluids over a Porous Medium with a Modified Model, Mechanics of Time-Dependent Materials, November 2015, Volume 19, Issue 4, pp 519-536, DOI 10.1007/s11043-015-9276-6, SCI.Impact Factor: 1.587,美国(3区).(JCR:Q1) (本校通讯作者).

23. Yanhai Lin, LiancunZheng, Goong Chen, Unsteady flow and heat transfer of pseudo-plastic nanoliquid in a finite thin film on a stretching surface with variable thermal conductivity and viscous dissipation, Powder Technology,SCI.Impact Factor:2.269, 美国(2区).(JCR:Q2)非本校第一作者单位

24. JiajiaNiu,LiancunZheng,Xinxin Zhang, Unsteady convective heat transfer of power-law fluid with variable fluid properties in a concentric annulus originated from a polymer flooding process, Numerical heat transfer, Part A: Applications,68(2015)1-16,SCI.Impact Factor:1.803,美国(2区).(JCR:Q1)

 

2014年

25.     JiajiaNiu, LiancunZheng, Xinxin Zhang,Unsteady MHD convection heat transfer along accelerating/decelerating cylinder with variable fluid properties, Cent. Eur. J. Phys.,SCI.Impact Factor:0.728,02/2014; DOI: 10.1140/epjp/i2014-14044-0, 波兰(4区).(JCR:Q3)

26. Yanhai Lin,LiancunZheng, Junhong Zhang, Marangoni Convection Flow and Heat Transfer of Power Law Nanofluids Driven by Temperature Gradient with Modified Fourier’s Law,Int J Nonl. Sci Num. Simul, DOI 10.1515/ijnsns-2013-0019,Impact Factor: 0.68,美国(4区).(JCR:Q4)非本校第一作者单位

27. JiajiaNiu,LiancunZheng, Yang Yang, and Chiwang Shu,Chebyshev spectral method for unsteady axisymmetric mixed convection heat transfer of power law fluid over a cylinder with variable transport properties,Int. J. Numer. Anal. Model. 1(2014)525–540SCI. Impact Factor:0.67,美国(3区).(JCR:Q2)

28. Shihao Han, LiancunZheng, Chunrui Li, XinxinZhang,Coupled flow and heat transfer in viscoelastic fluid with Cattaneo-Christov heat flux model, Applied Mathematics Letters, 38(2014) 87-93, SCI.Impact Factor:1.371,美国(2区).(JCR:Q1)

29. Yanhai Lin, LiancunZheng, Xinxin Zhang, Radiation effects on Marangoniconvection flow and heat transfer in pseudo-plastic non-Newtonian nanofluids with variable thermal conductivity, Int.J.Heat Mass Transfer,77(2014)708-716,SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

30. YanhaiLin, LiancunZheng, Botong Li, XinxinZhang, MHD thin film and heat transfer of power law fluids over an unsteady stretching sheet with variable thermalconductivity,Thermal Science 2014 OnLine-First Issue 00, doi:10.2298/TSCI130527034L, SCI. Impact Factor:1.09, 塞尔维亚(4区).(JCR:Q2)

31. Shuangling Dong,LiancunZheng, Xinxin Zhang, Pin Lin, Improved drag force model and its application in simulating flow utilizing nanofluids, Microfluidics and Nanofluids,17(2) (2014)253-261, SCI. Impact Factor: 3.507, DOI 10.1007/s10404-014-1330-1,德国(2区).(JCR:Q1)

32. 郑连存,张艳,培养学生科学思维和创新能力的研究与实践,大学数学,2014年第30卷第2期。

33. Shuangling Dong, LiancunZheng, Xinxin Zhang, Songping Wu, BingyuShen, A New model for Brownian force and the application tosimulating nanofluid flow,Microfluidics and Nanofluidics,16(2014)131-139 , SCI.Impact Factor:3.507, 德国(2区).(JCR:Q1)

34. Si Xinhui, ZhengLiancun, Chen Xuehui, Zhang Xinxin, Cao Limei, Li Min, The effects of slip velocity on a micropolar fluid through a porous channel with expanding or contacting walls, Computer Methods in Biomechanics and Biomedical Engineering, 17(4)(2014)423-432, SCI. Impact Factor: 1.573美国(3区).(JCR:Q2)

35.  Yan Zhang, LiancunZheng,Similarity Solutions of Marangoni Convection Boundary Layer Flow with Gravity and External Pressure, Chinese Journal of Chemical Engineering, 22(4)(2014) 365-369,SCI. Impact Factor:中国(4区).(JCR:Q3

36. Si Xinhui,Li Lin, ZhengLiancun, The exterior unsteady viscous flow and heat transfer due to a porous expanding stretching cylinder, Computers and Fluids, 105 (2014) 280-284,SCI. Impact Factor:1.997法国(3区).(JCR:Q2)

37. Si Xinhui, ZhengLiancun, Zhang Xinxin, Li min,Asymmetric viscoelastic flow through a porous channel with expanding or contracting walls: a model for transport of biological fluids through vessels, Computer Methods in Biomechanics and Biomedical Engineering, 201417(6):623-631.SCI.Impact Factor: 1.793英国(3区).(JCR:Q2)

38. Botong Li, Xi Chen, LiancunZheng, Liangliang Zhu, Jialv Zhou, TongtongWang,  Precipitation phenomenon of nanoparticles in power-lawfluids over a rotating disk, Microfluidics and Nanofluidics,DOI 10.1007/s10404-013-1298-2, SCI.Impact Factor:3.507,

 

2013年

39. Xiaohong Su, LiancunZheng, Hall effect on MHD flow and heat transfer of nanofluids over a stretching wedge in the presence of velocity slip and Joule heating, Cent. Eur. J. Phys. 11(12)(2013)1694-1703,SCI. Impact Factor:0.728, 波兰(4区)1-13 (JCR:Q3)非本校第一作者单位

40. LiancunZheng,Yaqing Liu, Xinxin Zhang, A New Model for Plastic-Viscoelastic Magnetohydrodynamic (MHD) Flow with Radiation Thermal Transfer, Int. J. Nonl. Sci. Num. Simul.,14 (2013)435-441, SCI. Impact Factor:1.64, 以色列 (2区).(JCR:Q4)

41. LiancunZheng,Xin Jin, Xinxin Zhang, JunhongZhang,Unsteady Heat and Mass Transfer in MHD Flow over an Oscillatory Stretching Surface with Soret and Dufour Effects,ActaMechanicaSinica,29(5)(2013) 667-675, SCI. Impact Factor:0.749, 中国(4区).(JCR:Q3)

42. LiancunZheng, Chaoli Zhang,Xinxin Zhang,Junhong Zhang, Flow and radiation heat transfer of a Nanofluid over a stretching sheet with velocity slip and temperature jump in porous medium, Journal of the Franklin Institute,350(2013)990-1007,SCI.Impact Factor:2.724,美国(2区).(JCR:Q1)

43. LiancunZheng, Botong Li, Ping Lin, Xinxin Zhang, Chaoli Zhang, Bin Zhao, Tongtong WangSedimentation and precipitation of nanoparticles in power-law fluids, Microfluidics and Nanofluidics,15(2013)11-18, SCI.Impact Factor:3.507, 德国(2区).(JCR:Q1)

44. LiancunZheng, Tongtong Wang, Xinxin Zhang, Lianxi Ma, The Nonlinear Schrödinger harmonic oscillator problem with small odd or even disturbances, Applied Mathematics Letters,26(2013) 463-468, SCI.Impact Factor:1.371, 美国(2区).(JCR:Q1)

45. LiancunZheng, Ning Liu, JiajiaNiu, Xinxin Zhang,Slip and buoyancy lift effects on the mixed flow and radiation heat transfer of a micropolar fluid towards vertical permeable plate, Journal of Porous Media,16 (2013)031705, SCI. Impact Factor: 0.707, 美国(4区).

(JCR:Q4)

46. Xinhui Si, LiancunZheng, Ping Lin, Xinxin Zhang, Yan Zhang,Flow and heat transfer of a micropolar fluid in a porous channel with expanding or contracting walls, Int.J.Heat Mass Transfer, 67 (2013) 885–895. SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

47. LiancunZheng, Yanhai Lin, Xinxin Zhang, MHD thermosolutalMarangoni convection of non-Newtonian power law fluids driven by temperature gradient, Journal of heat transfer-T AMSE, 135(2013) 051702-1,SCI.Impact Factor: 1.830, 美国(2区).(JCR:Q1)

48. Huandi Shi, Ping Lin, Botong Li, LiancunZheng, A finite element method for heat transfer of power-law flow in channels with a transverse magnetic field,Mathematical Methods in the Applied Sciences, DOI: 10.1002/mma.2872,SCI.Impact Factor:0.840, 美国(3区)(JCR:Q2)

49. LiancunZheng, Ning Liu, Xinxin Zhang, Maxwell fluids unsteady mixed flow and radiation heat transfer over a stretching permeable plate with boundary slip and non-uniform heat source/sink, Journal of heat transfer-T AMSE,135(2013), 031705-6,SCI.Impact Factor: 1.830, 美国(2区).(JCR:Q1)

50. Kalidas Das,LiancunZheng, Melting effects on stagnation point flow of a Jeffrey fluid in presence of magnetic field, Heat Transfer Research, DOI: 10.1615/HeatTransRes.2012006308,SCI. Impact Factor:0.477美国(4区).(JCR:Q4)

51. Liu Zheng, Zhu Jing, ZhengLiancun. Research on fluid mechanics with slip flow of viscoelastic fluid in the micro channel. Applied Mechanics and Materials. 387 (2013) 51-54. (EI)

52. Sun Yina, Si Xinhui, ShenYanan, ZhengLiancun. The analytical solution for the flow and heat transfer of a nanofluid over a nonlinearly stretching sheet. International Journal of Applied Mathematics and Statistics. 46(16) (2013) 366-373. (EI)

53. Sun Yina, Si Xinhui, ZhengLiancun, ShenYanan, Zhang Xinxin. The analysis of the flow of a micropolar fluid between two orthogonally moving porous disks with counter rotating directions. Cent. Eur. J. Phys.,11(5) (2013) 601-614, SCI.Impact Factor:0.728,波兰(4区).(JCR:Q3)

54. LiancunZheng,Bin Zhao, Time dependent nonlinear fractional schrödinger equation with trapping potential energy disturbances  an exponential decay disturbance,International Journal of Research and Reviews in Applied Sciences 16 (1)(2013)39-49.

55. YajunLv, LiancunZheng, MHD Oblique Stagnation-point Flow and Heat Transfer of a Micro polar Fluid towards to a Moving Plate with Radiation,International Journal of Engineering Science and Innovative Technology (IJESIT),2(2013)200-209

56. 郑连存,张艳,联想-猜想-论证,培养学生的发散思维和创新能力,教育学文摘,2013年第1期。

 

2012年

57. LiancunZheng, JiajiaNiu, Lianxi Ma, Xinxin Zhang, Dual solutions forflow and radiative heat transfer of a micropolar fluid over stretching/shrinking sheet, Int.J.Heat Mass Transfer, 55(2012), 7577-7586. SCI.Impact Factor:2.407, 美国(2区).(JCR:Q1)

58. Xiaohong Su, LiancunZheng, Xinxin Zhang, On DTM-BF method and dual solutions for an unsteady MHD flow over a permeable shrinking sheet with velocity slip,Applied Mathematics and Mechanics, 33(12) (2012), 1555–1568,SCI. Impact Factor: 0.393, 中国(4区).

59. Shuangling Dong,LiancunZheng, Xinxin Zhang. Heat transfer enhancement in microchannelsutilizing Al2O3-water nanofluid,Heat Transfer Research, 43(2012)695-707, SCI. Impact Factor:0.181,美国(4区).(JCR:Q4)

60. LiancunZheng,Yaqing Liu, Xinxin Zhang,Slip effects on MHD flow of a generalized Oldroyd-B fluid with fractional derivative, Nonlinear Analysis: Real World Applications, 13 (2012) 513-523, SCI.Impact Factor:2.043, 美国(1区).高被引(JCR:Q1)

61. Yan Zhang, Liancun Zheng, Analysis of MHD thermosolutalMarangoni convection with the heat generation and a first-order chemical reaction, Chemical Engineering Science, 69(2012), 449-455, SCI. Impact Factor:2.533, 澳大利亚(2区).(JCR:Q1)

62. LiancunZheng, Yanhai Lin, Xinxin Zhang, Marangoni Convection of Power Law Fluids Driven by Power-Law Temperature Gradient,Journal of the Franklin Institute,349(8)(2012), 2585-2597, SCI.Impact Factor:2.724, 美国(2区).(JCR:Q1)

63. Chunrui Li, LiancunZheng, Yue Zhang, Lianxi Ma, Xinxin Zhang, Helical flows of a heated generalized Oldroyd-B fluid subject to a time-dependent shear stress in porous medium,Commun. Nonl. Sci. Numerical Simul., 17(2012)5026-5041, SCI.Impact Factor: 2.806, 美国(1区).(JCR:Q1)

64. Xiaohong Su, LiancunZheng, Xinxin Zhang,Junhong Zhang, MHD mixed convective heat transfer over a permeable stretching wedgewith thermal radiation and ohmic heating, Chemical Engineering Science, 78 (2012) 1-8 ,SCI.Impact Factor:2.431, 澳大利亚(2区).(JCR:Q1)

65. LiancunZheng,JiajiaNiu, Xinxin Zhang, YingtaoGao, MHD flow and heat transfer over a porous shrinking surface with velocity slip and temperaturejump, Mathematical and Computer Modelling, 56 (2012) 133–144, SCI. Impact Factor:1.346,美国(2区).(JCR:Q1)

66. Botong Li, LiancunZheng, Xinxin Zhang, Comparison between Thermal Conductivity Models on Heat Transfer in Power-law Non-Newtonian Fluids, Journal of Heat Transfer-T ASME.134(2012), 041702(1-7).SCI. Impact Factor:1.830, 美国(2区).(JCR:Q1)

67. LiancunZheng, Lijuan Wang, Xinxin Zhang, Lianxi Ma, Unsteady flow and heat transfer over an stretching sheet with radiation in the presence of a magnetic field, Chemical Engineering Communications, 99(1)(2012) 1-16,SCI. Impact Factor: 0.946, 美国(4区).(JCR:Q3)

68. Si Xinhui, ZhengLiancun, Zhang Xinxin, Si Xinyi, Homotopy analysis method for the asymmetric laminar flow and heat transfer of viscous fluid between contracting rotating disksApplied Mathematical Modelling,36 (2012) 1806-1820. Impact Factor: 1.375, 美国(2区). (JCR:Q1)

69. T.Q. Li, C.S. Wu, Y.H. Feng, L.C. Zheng, Modeling of the thermal fluid flow and keyhole shape in stationary plasmaarc welding, Int. J. Heat and Fluid Flow, doi:10.1016/j.ijheatfluidflow.2011.12.004. SCI. Impact Factor:1.987.日本.(JCR:Q1)

70. Chunying Ming, LiancunZheng, Xinxin Zhang. MHD Flow of Shear-thinningFluid over a Rotating Disk with Heat Transfer.(3rd Int. Conf. Mechanical and Electronics Eng.ICMEE2011 )Applied Mechanics and Materials, 2012, 3599-3602. EI

71. KaremBoubaker, Botong Li, LiancunZheng, Ali H. Bhrawy and Xinxin Zhang, Effects of Viscous Dissipation on the Thermal Boundary Layer of Pseudo-Plastic Power Law non-Newtonian Fluids using Discretization Method DM and BPES,Thermodynamics, 2012, Article ID 181286, doi:10.5402/2012/181286.

72. 朱婧, 郑连存, 张志刚.同轴圆柱间滑移旋转流动问题的同伦解析解[J]  力学学报, 2012,V44(2): 451-455.

73. 郑连存,张艳,联想-猜想-论证,培养学生的发散思维和创新能力---从一个积分不等式证明(习题课)谈起,教育学文摘,2012年12月。

74. 郑连存,张艳,联想-猜想-论证,培养学生的发散思维和创新能力---从一个积分不等式证明(习题课)谈起,教育学文摘,2012年12月。

 

2011年

75. Si Xinhui, ZhengLiancun, Zhang Xinxin, Si Xiny, Homotopy analysis method for the asymmetric laminar flow and heat transfer of viscous fluid between contracting rotating disks, Applied Mathematical Modelling, 35(2011) 4321-4329, SCI. Impact Factor:1.375.美国(2区). (JCR:Q1)

76. Xinhui Si, Liancun Zheng, Xinxin Zhang, Min Li, Jianhong Yang, Ying Chao, Multiple solutions for the laminar flow in a porous pipe with suction at slowly expanding or contracting wall ,Applied Mathematics and Computation,  218(2011) 3515-3521,Impact Factor:1.370,美国(2区).(JCR:Q1)

77. Yaqing Liu, LiancunZheng, Xinxin Zhang, MHD flow and heat transfer of ageneralized Burgers’ fluid due to an exponential accelerating plate with the effect of radiation, Computers and Mathematics with Applications, 62 (2011)3123-3131, SCI. Impact Factor: 1.472, 美国(3区).(JCR:Q1)

78. LiancunZheng, Guangxia Cao, Xinxin Zhang, Analytical solutions for the flow and heat transfer over a stretching cylinder under the effect of uniform suction/injection, Nonlinear Studies, 18(3)(2011), 365-375. 美国.

79. LiancunZheng, ZhenlinGuo, Xinxin Zhang, 3D Flow of a generalized Oldroyd-B fluid induced by a constantly pressure gradient between two side walls perpendicular to the plate, Nonlinear Analysis: Real World Applications, 12 (2011) 3499–3508,SCI.Impact Factor:2.138, 美国(1区).(JCR:Q1)

80. LiancunZheng, Yaqing Liu, Xinxin Zhang, Exact solutions for MHD flow of generalized Oldroyd-B fluid due to an infinite accelerating plate,Mathematical and Computer Modelling, 54(1-2)(2011), 780-788,SCI. Impact Factor:1.103,美国(2区).JCR:Q1)

81. LiancunZheng, Xinxin Zhang, KaremBoubaker, UğurYücel, EmnaGargouri-Ellouze, and AhmetYıldırım, Similarity and BPES comparative solutions to the heat transfer equation for incompressible non-Newtonian fluids:Case of laminar boundary energy equation, European Physical Journal–Applied Physics, 55, 21102 (2011),SCI,Impact Factor:0.822, 英国(4区).(JCR:Q4)

82. LiancunZheng, Chunrui Li, Xinxin Zhang, YingtaoGao,Exact solutions for the unsteady rotating flows of a generalized Maxwell fluid with oscillating pressure gradient between coaxial cylinders, Computers and Mathematics with Applications. 62 (2011) 1105–1115,SCI. Impact Factor:1.472,美国(3区).(JCR:Q1)

83. Si Xinhui, ZhengLiancun, Zhang Xinxin, Yang Jianhong, The flow of a viscoelastic fluid through a porous channel with expanding or contracting walls, Chinese Physics Letters. 28(4) (2011) 044702,SCI.Impact Factor:0.972, 中国(4区).(JCR:Q3)

84. Xiaohong Su, LiancunZheng, Approximate solutions to MHD Falkner-Skan flow over permeable wall,Applied Mathematics and Mechanics, 32(4)(2011), 1-8, SCI. Impact Factor: 0.393, 中国(4区).

85. Jing ZHU, Liancun ZHENG, Xuehui Chen, Similarity solution of the MHD stagnation point flow over a stretching sheet, Applied Mathematics and Materials, 52-54(2011), 1895-1099, EI. 瑞士.

86. Jing Zhu, LiancunZheng, Series solutions of plane and axisymmetric stagnation-point flow with heat generation, Chinese Journal of Computational Mechanics.28(3)(2011), 1-6. EI,中国.

87. 朱婧,郑连存,张欣欣,具有热源项的驻点流动和传热问题的近似解析解(英文), 计算力学学报, 3(2011), 394-399.EI.

88. 朱婧,郑连存,张欣欣,具有滑移边界的上随体Maxwell流体驻点边界层方程的同伦解析解, 力学学报, 43(1)(2011), 39-44.EI.

89. Jing Zhu, LiancunZheng, The influence of thermal radiation on MHD station-point flow past a stretching sheet with the heat generation, ActaMechanicaSinica,27(4)(2011),502-509, SCI.Impact Factor:0.865, 中国(4区).(JCR:Q3)

90. Xinhui Si, LiancunZheng, Xinxin Zhang, Ying Chao, The flow of a micropolar fluid through a porous channel with expanding or contracting walls,Cent. Eur. J. Phys.,9(3)( 2011), 825-834, SCI. Impact Factor:0.728, 波兰(4区).JCR:Q3)

91.  Jing Zhu, LiancunZheng, Xinxin Zhang. Hydrodynamic plane and axisymmetric slip stagnation-point flow with thermal radiation and temperature jump, Journal of Mechanical Science and Technology 25 (2011) 1-8.  DOI 10.1007/s12206-011-0423-y,SCI, Impact Factor: 0.41韩国(4区).(JCR:Q3)

92. Botong Li, LiancunZheng, Xinxin Zhang, A New Model for Flow And Heat of A Power Law Fluid in A Pipe, Thermal Science, DOI REFERENCE: 10.2298/TSCI11S1127L, 15(2011), S127 - S130, SCI. Impact Factor:1.09, 塞尔维亚(4区).(JCR:Q2)

93. Yan Zhang, LiancunZheng,Xiaojing Wang, Guhua Song, Analysis of Marangoni Convection of Non-Newtonian Power Law Fluids with Linear Temperature Distribution, Thermal Science, DOI REFERENCE: 10.2298/TSCI11S1045Z, 15(2011), S45 - S52, SCI. Impact Factor:1.09, 塞尔维亚(4区).(JCR:Q2)

94.  Si Xinhui , ZhengLiancun , Zhang Xinxin , Chao Ying,The existence of multiple solutions for the laminar flow in a porous channel with suction at both slowly expanding or contracting walls, Int. J. Minerals, Meta. Meterials, 18(2011)494-501, SCI. Impact Factor:0.416, 中国.(JCR:Q3)(JCR:Q3)

95. Si Xinhui, ZhengLiancun, Zhang Xinxin, Chao Ying, Homotopy analysis method for the asymmetric laminar flow in a porous channel with expanding or contracting walls, ActaMechanicaSinica. 27(2)(2011)208-214, SCI.Impact Factor: 0.865, 中国.(JCR:Q3)

96. LiancunZheng, Kangning Wang, YingtaoGao, Unsteady flow and heat transfer of a generalized Maxwell fluid due to a hyperbolic sine accelerating plate, Computers and Mathematics with Applications.61(8)(2011), 2209-2212, SCI. Impact Factor: 1.472, 美国(3区).高被引(JCR:Q1)

97. Yaqing Liu, LiancunZheng, Xinxin Zhang, Unsteady MHD Couette  flow of a generalized Oldroyd-B fluid with fractional derivative, Computers and Mathematics with Applications, 61(2)(2011), 443-450SCI.Impact Factor:1.472, 美国(3区).高被引(JCR:Q1)

98. Chunying Ming, LiancunZheng, Xinxin Zhang, Analysis of the Power-law Fluid over a Rotating Disk with Heat Transfer, Int. Comm. Heat Transfer, 38(3)(2011), 280-284, SCI. Impact Factor: 1.189, 美国(3区).(JCR:Q1)

99. LiancunZheng, Lijuan Wang, Xinxin Zhang, Analysis solutions of unsteady flow and heat transfer on a permeable stretching sheet with non-uniform heat source/sink, Communications in Nonlinear Science and Numerical Simulations, 16 (2011) 731–740,SCI. Impact Factor: 2.697, 美国(1区).(JCR:Q1)

100.      Botong Li, LiancunZheng, Xinxin Zhang,Heat transfer in pseudo-plastic non-Newtonian fluids with variable thermal conductivity,Energy Conversion and Management, 52(1)(2011) 355-358. SCI.Impact Factor:2.072,美国(2区).(JCR:Q1)

101.      明春英,郑连存,张欣欣. 幂律流体在旋转盘上的流动与传热数值分析[J]. 北京科技大学学报,9(2011),1166-1170 EI.