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黄瑞新教授 6 z) m& t) v; ]4 h9 I
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Rui Xin Huang# h! N1 a3 Z$ D1 r3 P% l7 m
+ o& A" M1 z. C, V1 o9 tSenior Scientist* X c7 Z4 X( h5 M' d+ I2 y6 J, N
W. Van Alan Clark, Jr., Chair for Excellence in Oceanography, 2002-;
& u; K/ x; J gWoods Hole Oceanographic Institution
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9 W& f. p* {# O, b/ q/ BPhone: (o) 508-289-2532;
1 k: W% R7 W9 RFAX: 508-457-2181; 9 e9 U( Z/ B% y, O2 S* D
e-mail address: rhuang@whoi.edu3 k( R; M. A. v; |
Date of Birth: Sep. 15, 1942
I% l! m2 u) W: t) w R% A0 U/ e7 BCitizenship: U.S.A.' n6 t' ~5 r1 n9 j& ]% {' m
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Education8 f5 S$ M$ i9 a; g9 u; {- n) Y
1 x, F5 S& {7 xThe University of Science and Technology of China, 1960-65; B.S. in
1 o+ h/ d6 V7 ?Thermo-physical Fluid Dynamics of Jet Propulsion, 1965.
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Graduate School, University of Science and Technology of China, Meteorology, 1978-80.
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The Johns Hopkins University, Geophysical Fluid Dynamics, Sep. 1980-Feb. 1981.
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$ Y ~' @" U) B. y0 X' JMassachusetts Institute of Technology/Woods Hole Oceanographic Institution, 1981-1984; Ph.D. in Physical Oceanography 1984. # S( |9 g1 y+ _( O2 S
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Experience
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Research Associate, Institution of Mechanics, Beijing, China,
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1965--1978. Self-study of English and mathematics during the , [5 ]/ j: a1 n1 p) Y1 a
Cultural Revolution in China; aerodynamics of wings; transonic flow in y; |, e" Z( i
Turbo-machine; design of transonic turbo-machine; design and build the first transonic cascade tunnel in China; translation of a large five-language dictionary in physics.
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: z4 k% U9 q4 X6 x7 hPostdoctoral, M.I.T., 1984. ( g" _, y+ |( ^: a d3 k5 z
Visiting Scientist, Geophysical Fluid Dynamics Laboratory (NOAA), Princeton University, 1984--1986, March--June 1992.
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( H. B8 |9 _: S6 c& D: D7 s# N2 vAssistant Scientist, 1986--1990; Associate Scientist, 1990-1998; tenure awarded, 1993, Senior Scientist, 1998-, Woods Hole Oceanographic Institution;
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Visiting Associate Professor, University of Hawaii, Jan.-June, 1994.
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Visiting Scientist, Cooperative Institute for Marine and Atmospheric Studies,5 X5 [) w' k# e P3 e
University of Miami, Feb., 1999.
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Visiting Professor, Lamont-Doherty Earth Observatory, Columbia University, March-May., 1999. v* U. P& [5 q$ N
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Corresponding Member, U.S. WOCE Working Group on Numerical Modeling, 1989-1992. {2 n! s. z }% _6 i
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Joint Committee of Physical Oceanography, MIT/WHOI Joint Program, 1990-93.+ i4 v7 g8 ^# M. b
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Member, Working Group on Oceanic Thermohaline Circulation and Variability,; I! h% }' }7 c/ \# y3 e/ r
Climate System Modeling Project, USA, 1993-96.; g- s/ X, ~6 X& R3 q
0 [7 A4 t) N5 m- OMember, Climate Change Committee, WHOI, 1995-1999.+ ] h' o8 e; I6 S/ }3 C! A" }, K8 O
# Q E# {/ [# o6 n0 |7 ^Member, Advisory Committee, Ocean and Climate Change Institute, 2001-2005.
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" A/ }: b4 B; }/ k# Y2 uGuest Professor, Ocean University of Qingdao, China, 1996--.
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Chairman, Academic Committee for the national Key Laboratory of Physical Oceanography, Ocean University of China, 1999-2005.: c+ E1 G' H7 e, {6 T4 Z8 k
6 s+ p' m- q2 @! o1 EMember, Advisory Academic Committee of the National Key Laborotory of numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics (LASG), Institute of Atmospheric Physics, Chinese Academy of Sciences, 2001- 2005.9 {# C7 z9 x5 z1 v0 i. S# V9 {
: ^/ m _+ F8 m9 l5 @. H$ ?Guest professor, South China Institute of Oceanology, Chinese Academy of Sciences, 2002-.
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9 ?+ F7 t4 _" C, ETeaching
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, [. x" f1 F: X, {0 _3 rSteady Circulation in the Oceans and Atmosphere, MIT/WHOI Joint Program, 1988-1991.1 d) @" @+ }; A1 C
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Recent Advances in Large-Scale Ocean Circulation Theory, Second Institute of Oceanography, Hangzhou, China, October 7-17, 1992.3 g* t' M$ d5 X3 c: G
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Theories of the Oceanic General Circulation, University of Hawaii, Spring, 1994.
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7 [. Y& h- I$ TAdvances in Theories of Wind-Driven and Thermohaline Circulation, International3 t: m! ?3 a* O; ~
% P5 }( J: ` Y! r' Y" KSummer School on Ocean-Atmosphere Interaction, July 25-August 4, 1994, Qingdao, China.& _3 p5 N7 P8 l9 e9 h1 m
" N1 o6 k" u4 a7 M8 k' UTheories of the Oceanic General Circulation, MIT/WHOI Joint Program,
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8 |* |# G4 M- c7 W1 U, u$ rSpring 1995, Fall, 1998, Fall, 2001, Spring, 2004.: V$ k/ M; U% H4 U4 {
2 `6 d+ I( j/ n; N' ESupervision2 M6 v% o/ X( V" I% i" S
% J; `3 ~8 V$ U2 I3 B4 J+ y# mServed as a mentor for Dr. Krupitsky (Institution Postdoctoral Fellow), Dr. Mahdi Ben Jelloul (Institutional Postdoctorial Fellow), Dr. Jiayan Yang (when he was an Assistant Scientist).
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Mr. James McLaren, 1987-89; Mr. Li Ping Wang, 1989-93 (Ph.D.);
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/ h# z: V+ P2 O% q I Z, y% rOn thesis committee of other six students, chairman of thesis defense committee for Mr. Hui Ming Zhang and Ms. Sarah Gille.
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! @- Y8 W7 h- D+ ^Michael Masterson, Summer Student Fellow, 1987; Marcel Lieberman, Summer Student, k- x9 t* {5 m+ ]" {
Fellow, 1989; Sarah Russell, Summer Student Fellow, 1993.& Y9 o( G! w+ n. x- t" ?
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Sea Cruises5 v- ?# [* t- S/ z6 P/ S5 C
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RV OCEANUS, Seasor test cruise, July, 1989.# Y" d. D) ?2 E3 V: m1 h
Oceanus, Immerges Sea Cruise, August, 2003. 9 q: @) a8 U; w# `
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Honor
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Nominee of President Young Investigator Award, 1989.; n) D% [! l8 V3 @4 B7 d
) C# E( k- A7 q$ U; RResearch Interest:
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- K$ C$ U" C- l% _+ J) u& w( }Theoretical and numerical studies of the wind-driven and thermohaline circulation in the oceans, dynamics of western boundary currents, flow over topography, climate and paleoclimate dynamics.; o' W3 @/ D) L' Y# p. M
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Author or co-author of 70 refereed scientific publications.
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Refereed Publications
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* h+ ~3 z+ ~- SHuang, R. X. and J. P. Chao, 1980. A linear theory of spiral cloud bands of typhoon. Scientia Atmospherica Sinica, 4, No. 2. (in Chinese with English Abstract).5 i# g Z$ @& V7 V: K
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Chao, J. P. and R. X. Huang, 1980. The cnoidal waves of a rotating barotropic atmosphere. Scientia Sinica, XXIII , No. 10, 1266--1277.; Q9 f: Z2 D7 u3 k0 w2 K9 _% U$ K
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Huang, R. X., 1986. Solutions of the ideal fluid thermocline with continuous stratification. J. Phys. Oceanogr., 16, 39--59.
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Bogue, N. M., R. X. Huang, and K. Bryan, 1986. Verification experiments with an isopycnal coordinate ocean model. J. Phys. Oceanogr., 16, 985--990.( j; C" {3 Z& \9 v/ x6 p& o5 M
5 t0 A. i* b s: `1 Q9 j$ ?# |Huang, R. X., 1986. Numerical simulation of wind-driven circulation in a subtropical-subpolar basin. J. Phys. Oceanogr., 16, 1636--1650.9 G( b; j6 Z) v# V" P
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Huang, R. X., 1987. A three-layer model for wind-driven circulation in a subtropical-subpolar basin. Part I: Model formulation and the Sub-critical state. J. Phys. Oceanogr., 17, 664--678.8 I' ^+ P/ H" K6 |. U
2 l! j4 I0 x: PHuang, R. X., 1987. A three-layer model for wind-driven circulation in a subtropical-subpolar basin. Part II: The supercritical and hypercritical states. J. Phys. Oceanogr., 17, 679--697.
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$ V$ N" R0 b' S2 C# RHuang, R. X. and G. R. Flierl, 1987. Two-layer models for the thermocline and current structure in subtropical/subpolar gyres. J. Phys. Oceanogr., 17, 872--884.2 g; X4 e: q. T7 \ w4 b
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Huang, R. X. and K. Bryan, 1987. A multi-layer model of the thermohaline and wind-driven ocean circulation. J. Phys. Oceanogr., 17, 1909--1924.% ?3 N2 f+ b& i. S* C6 F/ R7 s5 X
N; I5 J% n$ [$ UHuang, R. X., 1988. On boundary value problems of the ideal-fluid thermocline. J. Phys. Oceanogr., 18, 619--641.
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Huang, R. X., 1988. Ideal-fluid thermocline with weakly convective adjustment in a subpolar basin. J. Phys. Oceanogr., 18, 642--651. Z" D' D- M; A4 l& g- i
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Huang, R. X., 1988. A three-layer model for wind-driven circulation in a subtropical-subpolar basin. Part III. Potential vorticity analysis. J. Phys. Oceanogr., 18, 739--752.
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Huang, R. X., 1989. The generalized eastern boundary conditions and the three-dimensional structure of the ideal fluid thermocline. J. Geophs. Res., 94(C4), 4855--4865.
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) q, P2 _' h' S4 \Huang, R. X., 1989. Simulating the main thermocline in the North Atlantic with an ideal-fluid model. J. Phys. Oceanogr., 19, 543--547.( U5 R. Q+ g- |$ h [2 i0 e
1 X3 W# D L( ]6 Q5 q; I9 U7 v3 Y2 `! pHuang, R. X., 1989. Sensitivity of a multi-layered oceanic general circulation model to the sea surface thermal boundary condition. J. Geophs. Res., 94(C12), 18,011--18,021.
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, Q$ a A, w( s# u p3 b }8 nHuang, R. X., 1990. Does atmospheric cooling drive the Gulf Stream recirculation? J. Phys. Oceanogr., 20, 750--757.* ]7 c0 Q# ^0 H4 D- Z' J. @% Q3 N3 F
. a$ E3 O& u; u6 wHuang, R. X., 1990. On the three-dimensional structure of the wind-driven circulation in the North Atlantic. Dynamics of Atmospheres and Oceans, 15, 117--159.
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4 \: x* }/ ^5 k2 ~+ u) I* h/ zHuang, R. X., 1990. On the structure of inertial western boundary currents with two moving layers. Tellus, 42A, 594--604.
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Huang, R. X. and H. M. Stommel, 1990. Cross-sections of two-layer inertial Gulf Stream. J. Phys. Oceanogr., 20, 907--911.! ]$ U6 p- z4 V) V8 R2 M3 G
8 r+ W- B6 \' p( Z; yHuang, R. X., 1990. Matching a ventilated thermocline model with inertial western boundary currents. J. Phys. Oceanogr., 20, 1599--1607.
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, z9 W a* N, THuang, R. X., 1991. A note on combining wind and buoyancy forcing in a simple one-layer ocean model. Dynamics of Atmospheres and Oceans, 15, 535--540.! n1 g7 ? w) z2 j
1 A. \6 x, b* n: X6 _* K4 bHuang, R. X., 1991. The three-dimensional structure of wind-driven gyres: ventilation and subduction. U.S. National Report to International Union of Geodesy and Geophysics 1987--1990, Supplement to Reviews of Geophysics, 590--609.5 b2 a6 I$ |4 H( t- @- z( T
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Huang, R. X., J. Luyten, and H. M. Stommel, 1992. Multiple equilibrium states in combined thermal and saline circulation. J. Phys. Oceanogr., 22, 231--246. s9 A' E {' }9 k5 G b& c' i
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Huang, R. X. and H. M. Stommel, 1992. Convective flow patterns in a eight-box cube driven by combined wind stress, thermal, and saline forcing. J. Geophs. Res., 97(C2), 2347--2364.) ^# L# g! r! s7 s
, R9 ~, P3 R* l p1 i# h9 D+ ~3 C, JLin, R. Q., R. X. Huang, and J. R. Apel, 1992. A study of the astronomical theory of ice ages in a two-dimensional nonlinear climate model. J. Geophs. Res., 97(D9), 10,029--10,036.
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. J6 b) ]% `6 E: w; ]# jHuang, R. X., 1993. A two-layer model for the wind and buoyancy forced circulation. J. Phys. Oceanogr., 23, 104--115.% s) z( p0 h7 ]1 t- G8 ^* a& U
+ f# P+ V4 v2 ]1 b& G* Y. NHuang, R. X. and R. W. Schmitt, 1993. The Goldsbrough—Stommel circulation of the world oceans. J. Phys. Oceanogr., 23, 1277--1284.
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Huang, R. X., 1993. Real freshwater flux as a natural boundary condition for the salinity balance and thermohaline circulation forced by evaporation and precipitation. J. Phys. Oceanogr., 23, 2428--2446.# r0 o. j& k$ t1 H
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Huang, R. X. and H. Stommel, 1993. The globe on a heart-shaped map. In "New equal area world map projections to better display polar regions," by Athelstan Spilhaus, Proceedings of the American Philosophical Society, 137, (2), 181-184.: B3 S' t+ _5 u* R. a
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Huang, R. X. and R. L. Chou, 1994. Parameter sensitivity study of the saline circulation. Climate Dynamics, 9, 391-409.6 D1 f* A& g, s) m- [
m, q2 N: Y# a. H8 AHuang, R. X., 1994. Thermohaline circulation: Energetics and variability in a single-hemisphere basin model. J. Geophs. Res., 99, (C6), 12,471-12,485. s `3 f+ d2 \: Y# h) p: L
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Huang, R. X. and B. Qiu, 1994. Three-dimensional structure of the wind-driven circulation in the subtropical North Pacific. J. Phys. Oceanogr., 24, 1608-1622.: C; a9 y9 M3 D( \; C
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Wang, L. P. and R. X. Huang, 1994. A simple model of abyssal circulation in a circumpolar ocean. J. Phys. Oceanogr., 24, 1040-1058.) j. N$ ~+ E- A0 ^& z& `9 g
& }/ A2 o% O1 Z5 d, W) w! o1 h, h8 ]Huang, R. X. and S. Russell, 1994. Ventilation of the subtropical North Pacific. J. Phys. Oceanogr., 24, 2589-2605.
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Wang, L. P. and R. X. Huang, 1995. A linear homogeneous model of wind-driven circulation in a -plane channel. J. Phys. Oceanogr., 25, 587-603., G% R7 C9 }' T
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Dewar, W. K. and R. X. Huang, 1995. Fluid flow in loops driven by freshwater and heat fluxes. Journal of Fluid Mechanics, 297, 153-191./ W8 `3 f5 H& v9 m2 U
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Pickart, R. and R. X. Huang, 1995. Structure of an inertial deep western boundary current. Journal of Marine Research, 53, 739-770.
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Qiu, B. and R. X. Huang, 1995. Ventilation of the North Atlantic and North Pacific: Subduction vs. Obduction. J. Phys. Oceanogr., 25, 2374-2390.3 q, ^* R. C' g) ^, g% U! y
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Huang, R. X. and J. R. Luyten, 1996. Reply. J. Phys. Oceanogr., 26, 286.
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0 M4 T7 d, `8 T* m/ n: LDewar, W. K. and R. X. Huang, 1996. On the forced flow of salty water in a loop. Physics of Fluids, 8, 954-970.3 ^" [' r" p' q% y. s
! b/ ^" S v0 e+ aYang, J. and R. X. Huang, 1996. Decadal oscillations driven by the annual cycle in a zonally-averaged coupled ocean-ice model. Geophysical Research Letters, 23, 269-272." s( \$ v o6 H; S* Q
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Huang, R. X. and W. K. Dewar, 1996. Haline circulation in a loop model: bifurcation and chaos. J. Phys. Oceanogr., 26, 2093-2106.
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Huang, R. X. and J. Yang, 1996. Deep-water upwelling in the frictional western boundary layer. J. Phys. Oceanogr., 26, 2243-2250.' }" K X- z, f# h' C- [" x9 j# ~
0 C' K. j' T7 l, W: q( M6 ZHuang, R. X., 1998. Available potential energy in a Boussinesq ocean, J. Phys. Oceanogr., 28, 669-678.
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Huang, R. X., 1998. On the energy balance of the oceanic general circulation. Chinese Journal of Atmospheric Science, 22, 452-467.# r1 A. `' C( ~ w
, V/ q4 E; u' s+ E5 c- jHuang, R. X. and Bo Qiu, 1998. The structure of the wind-driven circulation in the Subtropical South Pacific Ocean, J. Phys. Oceanogr., 28, 1173-1186./ \8 _8 K$ R4 T8 o. O
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Wang, L. and R. X. Huang, 1998. A homogeneous model of the Decon cell in a circumpolar ocean. Dyn. Atmos. Oceans, 28, 157-177.
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9 `! @) ~8 s3 o3 Z6 j' T6 E4 ]Zhang, J., R. Schmitt, and R. X. Huang, 1998. Sensitivity of the GFDL Modular 7 \6 d0 U9 {! d) ?: M" [
Ocean Model to parameterization of double-diffusive processes, J. Phys. Oceanogr., 28, 589-605. & w) e& n; K* o! N! M5 v
/ C# M8 n0 J6 C6 m* VKelly, K. A., S. Singh, and R. X. Huang, 1999. Seasonal variations of sea surface height in the Gulf Stream region. J. Phys. Oceanogr., 29, 313-327.
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Huang, R. X., 1999. Mixing and energetics of the thermohaline circulation. J. Phys. Oceanogr., 28, 727-746.$ E; S- O6 l# ]6 W1 v: `0 O
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Zhang, J., R. Schmitt, and R. X. Huang, 1999. The relative influence of diapycnal mixing and hydrologic forcing on the stability of thermohaline circulation, J. Phys. Oceanogr., 29, 1096-1108. ; Q; y2 _" z' m% E, v; Z7 F$ e
7 J& P* j3 {# o; O' i, VJin, X.-Z., R. X. Huang, and J.-Y. Yang, 1999. Centennial oscillations in an ocean-ice coupled model. Adv. Atmos. Sci., 16(3), 323-342.
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, |! b$ i- p2 G5 B$ L1 R, eHuang, R. X. and J. Pedlosky, 1999. Climate variability inferred from a layered model of the ventilated thermocline, J. Phys. Oceanogr., 29, 779-790.0 I: [: U7 M/ e. o5 m' m
2 p/ |" j7 L( a/ [Huang, R. X., 2000. Climate variability inferred from a continuously stratified model of the ideal-fluid thermocline, J. Phys. Oceanogr., 30, 389-1406.
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Huang, R. X., 2000. Parameter study of a continuously stratified model of the ideal-fluid thermocline, J. Phys. Oceanogr., 30, 1372-1388.
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& D- {, ]. x' U$ B; P! U7 c s! BHuang, R. X. and J. Pedlosky, 2000. Climate variability of the equatorial thermocline inferred from a two-moving-layer model of the ventilated thermocline, J. Phys. Oceanogr., 30, 2611-2626.: j6 X# I1 I, L5 g
' ?5 g# I+ f& OHuang, R. X., and J. Pedlosky, 2000b: Climate variability induced by anomalous forcing in a multi-layer model of the ventilated thermocline. J. Phys. Oceanogr., 30, 3009-3021.# s( x5 g! z3 V) J0 f8 |+ P4 |
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Huang, R. X., M. A. Cane, N. Maik, and P. Goodman, 2000. Global adjustment of the thermocline in response to deepwater formation. Geophysical Research Letter, 27, 759-762.
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}4 b i& S" JHuang, R. X., X.-Z. Jin, and X.-H. Zhang, 2001. An ocean general circulation model in pressure coordinates. Advances in Atmospheric Science, 18, 1-22.
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Huang, Rui Xin, 2001. An analytical solution of the ideal-fluid thermocline. J. Phys. Oceanogr., 31(8), Part 2, 2441-2457.. n/ z0 S% T" i
7 N5 B9 Z: F2 J8 _1 @9 }Dewar, W. K, and R. X. Huang, 2001. Adjustment of the ventilated thermocline. J. Phys. Oceanogr., 31, 1676-1697.
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t9 P5 y5 y! M2 |" XHuang, R. X., and Q. Wang, 2001: Interior communication from the subtropical to the tropical oceans. J. Phys. Oceanogr., 31, 3538-3550.5 v. c5 d* {& l# t1 s
6 B0 V* o" v: T5 O; T8 CHuang, R. X., 2001. The available potential energy in a compressible ocean. In P.F. Hodnett (Ed.) IUTAM Symposium on Advances in Mathematical Modeling of Atmosphere and Ocean dynamics, Pp167-172.
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( @' ]( x N" C7 V, i* sHuang, R. X. and J. Pedlosky, 2002. On aliasing Rossby waves induced by asynchronous time stepping. Ocean Modelling, 5, 65-76.
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6 ^8 H9 Y0 z3 H r% q2 {Huang, R. X. and X.-Z. Jin, 2002. Deep circulation in the South Atlantic induced by bottom-intensified mixing over the mid-ocean ridge. J. Phys. Oceanogr., 32, 1150-1164. ( V! Q7 P$ b+ X5 x
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Huang, R. X., and X.-Z. Jin, 2002. Sea surface elevation and bottom pressure anomalies due to thermohaline forcing: Part I: isolated perturbations. J. Phys. Oceanogr., 32, 2131-2150.
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Zhang, X.-H., W. Li, X.-Z. Jin, and R. X. Huang, 2002. The development of an oceanic general circulation model based on the pressure coordinates and its application. Advances in Natural Science, 12, 1015-1020. (in Chinese).5 J7 V& s( A2 {& \: q) y
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Huang, R. X. and F. F. Jin, 2003. The asymmetric nature of the equatorial undercurrent in the Pacific and Atlantic. J. Phys. Oceanogr., 33, 1083-1094.3 c+ N3 B8 f' v2 w( n, ^! |* I
( q2 G4 I+ W! Y$ G' s* {1 b# |5 xWang, W. and R. X. Huang, 2004. Wind energy input to the Ekman Layer. J. Phys. Oceanogr., 34, 1267-1275.$ h3 |$ ^, W# ~/ P5 o0 m, B, }
( a$ F7 f- G/ K9 u( `Wang, W. and R. X. Huang, 2004. Wind energy input to the surface waves. J. Phys. Oceanogr., 34, 1276-1280.
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/ | q6 J3 H3 M- UHuang, R. X., 2004. Ocean, energy flow in. C. J. Cleveland (Ed.) Encyclopedia of Energy, Elsevier, Vol. 4, pp 497-509.
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$ Q2 X; G; e4 F, B7 A" J/ O' pHuang, R. X., 2005: Available Potential Energy in the World Oceans, J. Mar. Res., in press.8 m9 U. { V6 H: c6 j
0 U7 P0 F' ] c6 G* |5 h' hWang, Q. and Rui Xin Huang, 2005: Decadal Variability of Pycnocline Flows from the Subtropical to the Equatorial Pacific, J. Phys.Ocanogr., in press.
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" R$ B8 J( u0 iWang W. and R. X. Huang, 2005: An experimental study on thermal circulation driven by horizontal differential heating, Journal of Fluid Mechanics, in press.* F8 n& k6 x. i5 g( @1 ~
1 z2 A) a: Y4 x, \; HHuang R. X. and X.-Z. Jin, Gravitational potential energy balance for the thermal circulation in a model ocean, manuscript submitted to J. Phys.Ocanogr.
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' i( E2 ]& u9 ^Huang, R. X., W. Wang, L. L. Liu, decadal variability of wind energy input to the world ocean, manuscript, submitted to Deep Sea Research II.* K6 s! R, z N
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' k( C9 Z- H3 q9 W( N2 zNon-Refereed Publications& H, i4 k& S5 q/ f/ D" V
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Huang, R. X., 1976. Some problems in the supersonic stream—surface theory. Information of Mechanics, No. 2 (in Chinese).
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Huang, R. X., 1977. On the stream--surface theory. Information of Mechanics, No. 1 (in Chinese).
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8 L' Y! v/ l% f0 C7 g9 lHuang, R. X. and J. A. Wang, 1977. The Earth's mantle convection, a problem in geophysical fluid dynamics. Information of Mechanics, No. 3 (in Chinese).5 {& I4 u/ v4 Y3 J3 U7 P, n8 n |
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Huang, R. X., 1980. On the one--dimensional approximation of viscous fluid flow. Progress in Mechanics, No. 3 (in Chinese).
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Huang, R. X., 1992. Deep western boundary currents. Oceanus, 35, (2), 26-27.
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Huang, R. X., 1992. Freshwater driving forces---A new look at an old theory. Oceanus, 35, (2), 36-37.
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1 c4 _* y2 ~; D/ f" dHuang, R. X., 1992. A trip to the MBL Library with Hank. Oceanus, 35, (Special Issue: A Tribute to Henry Stommel), p. 126.8 V2 m$ z/ ]2 Z) A: v* |* x) T
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Hogg, N. G. and R. X. Huang (editors), 1996. Collected Works of Henry M. Stommel (3 volumes, 1943 pp), American Meteorological Society.$ [: Y" K$ I$ q4 p$ K% p
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Huang, R. X. and J. Yang, 1996. Oceanic Aspects of the Climate Modeling, Oceanus, 39, (2), 36-38.
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Huang, R. X., 1998. The future of physical oceanography, a personal view. A speech at the NSF-sponsored Physical Oceanography Workshop.; H# f& R# C: i& P' s
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Huang, R. X. and W. Wang, 2003. Gravitational potential energy sinks in the oceans. Near-boundary processes and their parameterization, Proceedings, Hawaii winter workshop, pp239-247.
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W. Wang and R. X. Huang, 2004: Wind energy input to the surface waves and Ekman layer, Bull. Amer. Meteo. Soc., 85, 818-819. 8 M1 F: y% e" I+ F' q$ u" Z
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Technical Report6 ^+ i# O1 B* C% ~& x
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Huang, R. X., 1983. A two--layer model of the subpolar gyre and subtropical gyre. In: Summer Study Program in Geophysical Fluid Dynamics, Woods Hole Oceanographic Institution
; D/ i) T' R5 DTechnical Report WHOI--83--41, 106.- _! D: s) l' L) J6 ~2 G0 f, V
0 }8 J: v- K; j- t3 K' q+ {9 J6 P4 BContributor to Chapter 5: Climate Models-Evaluation in "Climate Change 1995", The Intergovernmental Panel on Climate Change, World Meteorological Organization / United Nations Environment Program, 1996.
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- p8 S6 _) B) H, m* P1 L2 bBook Reviews
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8 @ r* }5 I$ p6 |7 {* JHuang, R. X., 1987. Advanced Physical Oceanographic Numerical Modelling, James J. O'Brien, editor, D. Reidel Publishing Company, Dordrecht, 1986, 608 pp. Bulletin American Meteorological Society, 68, (8), 1032--1033.' [+ J# B; G' _" F
9 I) o9 t/ ?% M" r! gHuang, R. X., 1988. Numerical Modelling: Application to Marine Systems, J. Noye, editor, Elsevier Science Publishers B.V., Amsterdam, 1987, 295 pp. Bulletin American Meteorological Society, 69, (7), 775.
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5 f* n' J% B- G: UHuang, R. X., 1997. Review of Introduction to Physical Oceanography by George Mellor. American Journal of Physics.. c0 }% M1 Q( K' y& f ?- K- P
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8 O. m0 M& f; H' SHuang, R. X., 1984. The thermocline and current structure in subtropical/ subpolar basins. Ph.D. Thesis, Massachusetts Institute of Technology/Woods Hole Oceanographic Institution, 218 p.; ~: F5 b) H& \; j7 V
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Lecture Notes
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1 f& V1 g( c2 }' v+ F* m, gHuang, R. X., 1988. Steady Circulation of the Oceans and Atmosphere. Lecture notes for M.I.T./W.H.O.I. Joint Program Course, 215 pp.
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Huang, R. X., 1992. Recent Advances in Large-Scale Ocean Circulation Theory. Notes for lectures presented at the Second Institute of Oceanography, Hangzhou, China, October 7--17, 1992, 237 pp., published in China.) {7 ^8 C5 [, d: I
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Huang, R. X., 1995. Advances in Theories of Wind-Driven and Thermohaline Circulation, Tech. Rept, JIMAR-95-1, Joint Institute of Marine and Atmospheric Research, Honolulu, Hawaii, 211 pp. 7 g' g# F8 ^) F) G& W- s
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Huang, R. X., 2004. Theories of the general circulation in the oceans. Lecture Notes for M.I.T./W.H.O.I. Joint Program Course, 600 pp.
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4 O% T% W5 z: dReference Book
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! i9 ]. K6 }! t4 X" w6 @! gWang, T. Y. (Chief Editor), R. X. Huang, et al., 1980. English--German--French--Russian--Chinese Dictionary in Physics, Atomic Energy Press, Beijing, China, 2012 pp. |
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