<

www.3522com

BODY>

Welcome to Peking University Institute of Ocean Research!

中文版 |  Peking University |  手机版

PEOPLE

HOME >> PEOPLE >> Faculty >> Faculty A-Z >> Content

Faculty

Liu Moubin

2018-07-15 15:51:37

Liu Moubin:

Professor

E-mail: mbliu@pku.edu.cn

College of Engineering, Peking University, 100871, Beijing, P.R. China

Education:

1993, B.E., Xi'an JiaoTong University (XJTU)

1996, M. E., Xi'an JiaoTong University (XJTU)

2003, Ph.D., National University of Singapore (NUS)

Professional Experiences:

Professor, College of Engineering, Institute of Ocean Research, Peking University

Research Intererts:

Computational Fluid Dynamics

Fluid-Structure Interaction

Hydrodynamics and Environmental Fluid Flows

Profile:

He is interested in computer modeling of complex flows with different coupling effects, and has developed some original numerical methods, both grid-based and meshfree particle-based, for modeling fluid dynamics and fluid-solid interactions, including high energy explosive detonation and explosion, underwater explosion, high strain hydrodynamics with material strength, wave breaking and interaction with structures (e.g., sloshing and slamming), and water entry and exit. 

Honors and Awards:

2014, Supervisor for Excellent PhD graduates, Shanxi Province

2012, The 1st Prize of Natural Science Award in Universities in Shanxi Province

2012, Outstanding Contribution Award from the All China Federation of Returned Overseas Chinese

2009, 100 Talents Award, Chinese Academy of Sciences

2007, Young Investigator Award, Asia Pacific Association of Computational Mechanics

2005, Lee Kuan Yew Fellowship, Nanyang Technological University

2001, Young Investigator Award, The 1st MIT Conference on Computational Fluid and Solid Mechanics

Invited Lectures/Speeches: (from 2010)

2014-08, Plenary speaker, The 2nd National Conference on Computational Particle Dynamics, Lanzhou, China

2013-12, Keynote speaker, 5th Asia Pacific Congress on Computational Mechanics, Singapore

2013-10, Plenary speaker, 36th International Conference on Boundary Elements and Other Mesh Reduction Methods, Dalian, China..

2013-09, Keynote speaker, III International Conference on Particle-Based Methods?Stuttgart.

2013-02, Keynote speaker, Advances in Computational Mechanics, A Conference Celebrating the 70th Birthday of Thomas J.R. Hughes, San Diego.

2012-11, Semi-plenary speaker, 4th International Conference on Computational Methods?Gold Coast, Australia.

2012-10, Invited speaker, 2012 China Conference on Computional Mechanics, Chongqin.

2012-10, Invited speaker, The Second International Conference on Scientific Computing in Aerodynamics, Beijing.

2011-08, Plenary speaker, the 15th National Symposium on Numerical Methods in Fluids (15 th NSNMF), Beijing.

2011-04, Invited speaker, the Int. Conference on Computational & Experimental Engineering and Sciences 2011, Nanjing.

2010-11, Invited speaker, the 3rd International Conference on Computational Methods, Zhangjiajie.

Monographs:

M. B. Liu,  X. Han,  Y. T. Gu, Z. R. Li (2017) Advances in computational engineering science. ScienTech Publisher, New York (ISBN: 978-1-946018-01-4).

M. B. Liu, C. Huang (2017) Advances of smoothed particle hydrodynamics. ScienTech Publisher, New York (ISBN: 978-1-946018-02-1).

M. B. Liu, G. R. Liu (2015) Particle methods for multiscale and multiphysics. World Scientific (ISBN: 978-981-238-456-0).

(http://www.worldscientific.com/worldscibooks/10.1142/9017).

Liu G. R., andLiu M. B., Smoothed particle hydrodynamics – a meshfree particle method, World Scientific, 2003

(http://www.worldscientific.com/worldscibooks/10.1142/5340).

Selected Journal Papers:

1. Z. L. Zhang,  K. Walayat,  J. Z. Chang, M. B. Liu (2019) A finite particle method with particle shifting technique for modeling particulate flows with thermal convection. International Journal of Heat and Mass Transfer. 128:1245-1262 .

2. Z. L. Zhang,  K. Walayat,  J. Z. Chang, M. B. Liu (2018) Meshfree modeling of a fluid-particle two-phase flow with an improved sph method. International Journal For Numerical Methods In Engineering. g. https://doi.org/10.1002/nme.5935 .

3. J. R. Shao,  Y. Yang,  H. F. Gong, M. B. Liu (2018) Numerical simulation of water entry with improved SPH method. Int. Journal of Computational Methods. 10.1142/S0219876218460040.

4. M. B. Liu, S. M. Li (2016) On the modeling of viscous incompressible flows with smoothed particle hydro-dynamics. Journal of Hydrodynamics, Ser. B. 28(5):731-745.

5. M. B. Liu, S. M. Li (2016) On the modeling of viscous incompressible flows with smoothed particle hydro-dynamics. Journal of Hydrodynamics, Ser. B. 28(5):731-745.

6. Huang C., Lei J. M., Liu M. B.*, Peng X. Y., International Journal for Numerical Methods In Fluids. 10.1002/fld.4191, 2016

7. Shao J. R., Li S. M.,Liu M. B.** (2016) International Journal of Computational Methods. 10.1142/S0219876216410012, 2016.

8. Yang X. F, Liu M. B.*, Peng S. L., Huang C. G., Numerical modeling of dam-break flow impacting on flexible structures using an improved SPH–EBG method. Coastal Engineering 108: 56-64, 2016.

9. Zhou L. V., Zhang Y. Q., Deng X. L., Liu M. B.*, International Journal of Computational Methods. 10.1142/S0219876216410036, 2016.

10. J. R. Shao,  S. M. Li,  Z. R. Li, M. B. Liu (2015) A comparative study of different baffles on mitigating liquid sloshing in a rectangular tank due to a horizontal excitation. Engineering Computations. 13(4):1172-1190.

11. Huang C., Lei J. M., Liu M. B.. and Peng X. Y., International Journal for Numerical Methods in Fluids 78: 691–707, 2015.

12. Shao J. R., Li S. M., Li Z. R. and Liu M. B.*, Engineering Computations 13(4): 1172-1190, 2015.

13. Wang G. Y., Liu G. R., Peng Q., Feng D. L. and Liu M. B., Propellants, Explosives, Pyrotechnics, DOI: 10.1002/prep.201400244, 2015.

14. Chen Z., Zong Z., Liu M. B.*, Zou L., Li H. T., Shu C., Journal Computational Physics283:169-188, 2015.

15. Yang X. F.,Liu M. B.*, Peng S. L., Physical Review E, 90:063011, 2014

16. Liu H. T., Jiang S., Chen Z., Liu M. B., Chang J. Z., Wang Y. H., Tong Z. H., Microfluidics and Nanofluidics, DOI 10.1007/s10404-014-1529-1, 2014.

17. Liu M. B.*, Liu, G. R., Zhou, L. V., Chang, J. Z., Archives of Computational Methods in Engineering, DOI 10.1007/s11831-014-9124-x, 2014

18. Hu M., Liu M. B., Xie M. W., Liu G. R., Environmental Earth Sciences, DOI 10.1007/s12665-014-3513-1, 2014.

19. Liu M. B.*, Zhou R., Shao J. R., Journal ofHohaiUniversity( in Chinese). 42(3):257-261.,2014.

20. Liu M. B.*, Shao J. R., Li H. Q., International Journal For Numerical Methods In Fluids, 74:684-697, 2014.

21. Yang X. F., Peng S. L., Liu M. B.*, Applied Mathematical Modelling, 38: 3822–3833, 2014.

22. Yang X. F., Liu M. B., Peng S. L., Computers & Fluids. 92(20):199-208, 2014.

23. Guo Z. M., Liu M. B., Material Science and Engineering(in Chinese). 36(4):1-4, 2013.

24. Liu H. T., Chen Z., Jiang S., Gan Y., Liu M. B., Chang J. Z. and Tong Z. H., CMES: Computer Modeling in Engineering & Sciences. 95(4):303-315, 2013.

25. Chen Z., Zong Z., Liu M. B.*, Li H. T., International Journal For Numerical Methods In Fluids. 73(9):813–829,2013.

26. Feng D. L., Liu M. B.*, Li H. Q. and Liu G. R., Computers & Fluids. 86:77–85, 2013.

27. Zhou L. V., Liu M. B.*and Chang J. Z., Interaction and Multiscale Mechanics. 6(2):157-172, 2013.

28. Yang X. F., Liu M. B.*, Science China hysics, Mechanics & Astronomy. 56(2):315-321, 2013.

29. Zhou L. V., Liu M. B.*and Chang, J. Z., Acta Polymerica Sinica7: 720-727, 2012.

30. Chang J. Z., Liu, H. T.,Liu, M. B.and Su, T. X., Acta Physica Sinica61(6): 064704, 2012.

31. Yang X. F., Peng, S. L., Liu M. B.*and Shao, J. R., International Journal of Computational Methods9(1): 1240002, 2012.

32. Shao J. R., Li, H. Q., Liu, G. R. and Liu M. B.*, Computer & Structures100-101(18-26), 2012.

33. Shao J. R., Liu M. B.*, Yang, X. F. and Cheng, L., International Journal of Computational Methods9(1): 1240001, 2012

34. Liu M. B.*, Shao, J. L. and Chang, J. Z., Science China Technological Sciences55(1): 244-254, 2012.

35. Yang X. F. andLiu M. B.*, Acta Physica Sinica61(22): 224701, 2012.

36. Liu M. B.*and Chang, J. Z., International Journal of Computational Methods8(4): 637-651, 2011.

37. Chang J. Z., Liu, H. T., Su, T. X. and Liu M. B.*, International Journal of Computational Methods8(4): 851-861, 2012.

38. Liu M. B.*and Liu, G. R., Archives of Computational Methods in Engineering17, 2010.

39. Liu M. B.*Liu G. R. and Zong Z., International Journal of Computational Methods, 5(1):135-188, 2008.

40. Liu M. B.*Meakin P. and Huang H., Water Resources Research, 43, W04411, doi:10.1029/2006WR004856, 2007.

41. Liu M. B.*, Meakin P. and Huang H., Physics of Fluids, 19, 033302, 2007.

42. Liu M. B.*, Meakin P. and Huang H., Journal of Computational Physics, 222, 110-130, 2007.

43. Liu M. B.*, Meakin P. and Huang H., Physics of Fluids, 18, 017101, 2006.

44. Liu M. B.*, Liu G. R., and Lam K. Y., Shock Wave, DOI 10.1007/s00193-005-002-1, 2006.

45. Liu M. B.*.and Liu G. R., Applied Numerical Mathematics, 56:19-36, 2006.

46. Liu M. B.*and Liu G. R., Computational Mechanics, 35:332-341, 2005.

47. Liu M. B.*, Xie W. P. and Liu G. R., Applied Mathematical Modeling, 29:1252-1270, 2005

48. Huang H, Meakin P., Liu M. B. and McCreery G. E., Geophysical Research Letters, doi:10.1029/2005GL023899, 2005.

49. Huang H, Meakin P. and Liu M. B., Water Resources Research, 41(12), W12413 10.1029/2005WR004204, 2005.

50. Liu M. B.*, Liu G. R., Zong Z. and Lam K. Y.,Computers & Fluids, 32(3): 305-322, 2003.

51. Liu M. B.*, Liu G. R., Lam K. Y. and Zong Z.,Shock Waves12 (6): 509-520, 2003.

52. Liu M. B.*, Liu G. R., Lam K. Y. and Zong Z.,Computational Mechanics, 30(2):106-118, 2003.

53. Liu M. B.*, Liu G. R. and Lam K. Y., Journal of Computational and Applied Mathematics, 155(2):263-284, 2003.

54. Liu M. B.*, Liu G. R. and Lam K. Y., shock waves, Shock Waves, 13(3):201 – 211, 2003.

55. Chen Z, Zong Z, Liu M B, et al. An SPH model for multiphase flows with complex interfaces and large density differences[J]. Journal of Computational Physics, 2015, 283: 169-188.

56. Shao J, Li S, Li Z, et al. A comparative study of different baffles on mitigating liquid sloshing in a rectangular tank due to a horizontal excitation[J]. Engineering Computations, 2015, 32(4): 1172-1190.

57. Liu M B, Li S. On the modeling of viscous incompressible flows with smoothed particle hydro-dynamics[J]. Journal of Hydrodynamics, 2016, 28(5): 731-745.

Recruitments:

We are looking for self-motivated researchers (Master and PhD students, Post-docs, short- and long-term researchers) to join us to conduct cutting-edge research in the broad areas of computational fluid dynamics, fluid-structure interaction, hydrodynamics and environmental fluid flows. Interested candidates can contact us at mbliu@pku.edu.cn.

关闭

XML 地图 | Sitemap 地图