Rong Wan

  RongWan


Professor, doctoral supervisor,

Director of Personnel Division,

Ocean University of China

5 Yushan Road,        Phone: 0532-82032830

Qingdao 266003,       Fax:

P. R. China            Email:rongwan @ouc.edu.cn


EDUCATION

BS, Department of Fishery, Ocean College of Shandong, China, July, 1985;

MS, Fishing Science, Ocean University of Qingdao, China, July, 1990;

PhD, Discipline of Marine Production, Tokyo University of Fishery, Japan, Mach,2002.


PROFESSIONAL APPOINTMENT HISTORY

Assistant professor in the Ocean University of Qingdao, China, July 1985;

Lecturer in the Ocean University of Qingdao, China, January, 1993;

Professor and Doctoral Supervisor in the Ocean University of China, December, 2002;

Deputy Director of Personnel Division in the Ocean University of China, November, 2003

Director of Personnel Division in the Ocean University of China, August, 2005.



RESEARCH

Research Interests:

1. Numerical methods to estimate the shapes and tensions of fishing net based on the finite element method;

2. Study on the dynamic response of fish cages and their mooring system to the actions of both current and waves to develop aquatic-breeding system that resists strong wind, current and waves;

3. Exploration on fishery management and economic problems such as fish-ban regulation, establishment of fishery management system based on community, the international trade of aquatic products and so on.

Current Research Projects (recent 10 years):

§ Studyon the dynamic response characteristics of aquaculture net-cage system in the fields of both waves and current. Supported by a grant from the National Natural Science Foundation of China(Grant No. 40576045), 2006-2008;

§ Study on the dynamic response characteristics of anchoring system for the net-cages of gravity-type under the actions of waves and current in deep-sea. Supported by a grant from the National Natural Science Foundation of China(Grant No. 40776052), 2008-2010;

§ Numerical calculation on the tensions and shape patterns of flexible fishing gears. Supported bya grant from the National Natural Science Foundation of China(Grant No. 30972256),2010-2012;

§ Research on the new type of whole-set equipments of deep-sea net-cages and offshore aquaculture technology.Supported by a grant from the National High Technology Research and Development Program of China (a sub-project of 863 Program) No. 2006AA100301);

§ Investigation on the fishery resources in the East-China sea and a study on the key technology for the enrichment culture of the precious fishery species with demonstration: the development and application of an intensive, standard and digital technology system for the mariculture in the East-China sea.Supported by a grant from the National Key Technologies R & D Program of China during the 11th Five-Year Plan Period No. 2007BAD43B06),2006-2010;

§ Research on the key technology of emergency disposal to the large-scale outbreak of enteromorphaand its application: study on the facility and its supporting engineering techniqueto clean out enteromorpha quickly and effectively. Supported by a grant from the National Key Technologies R & D Program of China during the 11th Five-Year Plan Period No. 2008BAC49B03),2008-2009;

§ Study on the dynamic response characteristics of mooring system for the deep-sea aquaculture cages of gravity-type. Supported by the Key Project of Chinese Ministry of Education (No. 107071), 2007-2008;

§ Study on the numerical simulation of long lining to fish oceanic tunas.Supported by a grant from the Ph.D. Programs Foundation of Ministry of Education of China (No.20040423007), 2004-2005.


PUBLICATION (recent 10 years)


1. Liu, Lili; Kinoshita, Takeshi; Wan, Rong; Bao, Weiguang; Itakura, Hiroshi. Experimental investigation and analysis of hydrodynamic characteristics of a net panel oscillating in water Source:Ocean Engineering, v 47, p 19-29, June 2012

2. Zhao, Fen-fang; Kinoshita, Takeshi; Bao, Wei-guang; Huang, Liu-yi; Liang, Zhen-lin; Wan, RongInteraction between waves and an array of floating porous circular cylinders Source:China Ocean Engineering, v 26, n 3, p 397-412, September 2012

3. Zhao, Fenfang;Kinoshita, Takeshi; Bao, Weiguang; Wan, Rong; Liang, Zhenlin; Huang, Liuyi. Hydrodynamics identities and wave-drift force of a porous body Source:Applied Ocean Research, v 33, n 3, p 169-177, July 2011

4. Cui, Yong; Guan, Chang-Tao; Wan, Rong; Gui, Fu-Kun; Huang, Bin; Li, Jiao. Dynamic analysis for fish cage in current and wave based on finite element methods Source:Gongcheng Lixue/Engineering Mechanics, v 27, n 5, p 250-256, May 2010 Language: Chinese

5. R. Wan, W.Q. Huang, X. F. Song, F. X. Hu, T. Tokai, 2004. Statics of a gillnet placed in a uniform current. Ocean Engineering, 31(14-15): 1725-1741;

6. R. Wan, F. Hu, T. Tokai and K. Matuda, 2002. A method for analyzing the static response of submerged rope systems based on finite element method. Fisheries Science 68(2): 65-70;

7. R. Wan, F. Hu, and T. Tokai, 2002. A static analysis of the tension and configuration of submerged plane netting. Fisheries Science 68(4) :815-823;

8. R. Wan, F. Hu, and T. Tokai, 2002. Computer simulation of shape and tension on fishing net and rope system. Fisheries Science 68: 1853-1856;

9. R. Wan. Numerical simulation on response of fishing gears. Doctoral thesis, Tokyo University of Fisheries, Tokyo, Japan, 2002;

10. Wan Rong, Cui Jiang-hao, Song Xie-fa, etc. A numerical model for predicting the fishing operation status of tuna longlines. J. Fisheries of China, Vol.29(2): 238-245, 2005;


Plus more than 30 papers written in Chinese and published in Chinese Journals.