王伟

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姓名：王伟 o5 F- a# R2 S; ~- P9 s- l& g性别：男 职称：教授 1 r8 o" U+ s( p6 s学位：博士 6 u' R9 ~, b2 v j工作单位：中国海洋大学物理海洋点实验室 8 v" x/ E. k5 f: @; J/ t: l* z职务：物理海洋教育部重点实验室副主任 通讯地址：山东省青岛市鱼山路5号 ; i$ }. U, O! \) R' C 中国海洋大学物理海洋点实验室 / a# A5 }% z$ Y& m$ m电话：+86-532-82032366 $ l$ w! M4 q/ N" U; B2 e传真：+86-532-82032471 9 A4 @9 B( q4 A 主要学历： 1981~1985 北京航空航天大学 空气动力专业 0 q, j( }$ |% g本科生 6 D5 b! W& ]( A4 Y2 K1985~1988 " ^* K# k# o- U, W北京航空航天大学 7 v1 w$ l* H, x$ C4 \空气动力专业 ; R# ^7 K! H2 Q9 k硕士生 0 I5 g/ C$ P" g3 H! |7 p% W' q1995~1999 8 Y5 s6 _8 f& Y/ F2 @青岛海洋大学 5 e; R" P! \( s4 c' m) b t; x+ L物理海洋专业 ) h3 C( {3 s- l5 |博士生 8 G7 F! G. v+ O# o/ x 工作经历： 1988~1994 青岛海洋大学讲师。 - x8 A6 ?6 M+ S1 U! }; [1994~1997 青岛海洋大学副教授。 1997至今 ( T5 O9 Q6 p: S$ R青岛海洋大学教授。 , }2 G7 }) d6 X# Q- E2000至今 , H5 N" m# I4 Y中国海洋大学教授、博士生导师。 1999至今 中国海洋大学物理海洋教育部重点实验室 副主任 " }1 A2 S4 L0 R# [) Y) E讲授课程： 大洋环流 研究兴趣： 热盐环流 海洋中的能量平衡 : u$ O6 s4 H9 W, ~, Q3 P7 B' G x) _) Z+ I. o6 ]0 B) h7 K5 e地球流体实验 9 V2 O' c3 f2 S1 |: K- U * l- F% K: I) r" ^ F目前在研项目 1、 水平温差驱动的环流研究，2005~2007，国家自然科学基金面上项目 2、 大洋环流与海洋中的能量平衡，2008~2011，国家杰出青年基金 0 B6 K \% Z% k, M+ v+ \ $ Z0 d' H* i: |8 G' o9 j9 e发表论文（2003~2007）：

1. 5 a& A: i1 S/ XWhitehead, J. A. and W. Wang, 2007. A laboratory model of vertical ocean circulation driven by mixing. J. Phys. Oceanogr., accepted

2. Liu, L. L., W. Wang and R. X. Huang, 2007. The mechanical energy input to the ocean induced by tropical cyclones. J. Phys. Oceanogr., accepted

3. Huang, R. X., C. J. Huang and W. Wang, 2007. Dynamical roles of mixed layer in regulating the meridional mass/heat fluxes. J. Geophys. Res., 112, C05036, 1-10.

4. Huang, C. J., W. Wang and R. X. Huang, 2007. Climate variability in the Equatorial Pacific Ocean induced by decadal variability of mixing coefficient. J. Phys. Oceanogr., 37(5), 1163-1176.

5. : K6 p" n* Z! Y% `* U. ]% |Feng, Y., W. Wang and R. X. Huang, 2006. Meso-scale available gravitational potential energy in the world oceans. Acta Oceanologica Sinica, 25(5), 1-13.

6. Huang, R. X., W. Wang and L. L. Liu, 2006. Decadal variability of wind energy input to the world ocean. Deep Sea Research II, 53(1-2), 31-41.

7. Wang, W., C. C. Qian and R. X. Huang, 2006. Mechanical energy input to the world oceans due to atmospheric loading. Chinese Science Bulletin, 51(3), 327-330.

8. $ d4 @. _4 H0 y8 r; i7 a5 [0 `# h+ eWang, W., and R. X. Huang. 2005. An experimental study on thermal circulation driven by non-uniform horizontal heating. J. Fluid Mech., 540, 49-73.

9. Sun, F., S. Gao, W. Wang and C. C. Qian. 2004. Wave-induced stress and estimation of its driven effect on currents. Science in China Ser. D Earth Sciences, 47(12), 1147-1154.

10. Wang, W., and R. X. Huang. 2004. Wind Energy Input to the Surface Waves. J. Phys. Oceanogr., 34(5), 1276-1280.

11. Wang, W., and R. X. Huang. 2004. Wind Energy Input to the Ekman Layer. J. Phys. Oceanogr., 34(5), 1267-1275.

12. 0 @/ R% N+ D1 m4 V% U( CHuang, R. X., and W. Wang. 2003. Gravitational potential energy sinks in the oceans. Proceedings of the 13th 'Aha Huliko'a Hawaiian Winter Workshop, pp.239-247.

13. Huang, C. J., D. J. Dai, W. Wang and C. C. Qian. 2003. A Probability Distribution of Surface Elevation for Wind Waves in Terms of the Gram-Charlier Series. China Ocean Engineering, 17(4), 605-616.

14. 2 ^& |+ _# L8 N4 T: P4 eWang, W., F. Sun and D.J. Dai. 2003. Spatial evolution equation of wind wave growth. Science in China, 46(2), 162-172.

15. Sun, F., S. Gao, W. Wang and C.C. Qian. 2003. Singularity and Breaking of the Third Order Stokes Waves. China Ocean Engineering, 17(1), 111-116.

16. , [, l: v4 F0 |2 X5 zLiu, Q.Y., S.X. Wang, Q. Wang and W. Wang. 2003. On the formation of Subtropical Countercurrent to the west of the Hawaiian Islands. J. Geophys. Res., 108(C5), 3167-3175.