冯士筰
浅海动力学方面
个性化签名
- 姓名:冯士筰
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学术头衔:
博士生导师, 中国科学院院士
- 职称:-
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学科领域:
物理海洋学
- 研究兴趣:浅海动力学方面
男, 1937年3月生于天津市。1962年毕业于清华大学工程力学数学系流体力学专业,分配到山东海洋学院(现中国海洋大学)任教。冯教授于1997年当选为中国科学院院士,他是我国在物理海洋学方面颇有成就的科学家,也是我国环境海洋学第一个博士生导师和学术带头人。他的成就主要表现在浅海动力学方面的研究。
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【期刊论文】a three-dimensional nonlinear model of tides
冯士筰, feng snru-zao
vol.xx no.4 scientia sinica july. august 1977,-0001,():
-1年11月30日
it is of practical significance to investigate shallow water tides sinec there is a vast expanse of shallow sea surrunding our eastern border in the cast. in this paper for the study of tidal waves in ahaliow water we present a three-dimentional nonlinear model. on the basis of tidal constituent concept, the model dosigned could be used not only for the detoction of astronomical tides but also for aifferent orders of shallow water comstituents. for the jta order of constinents (as defined in the present artiele), the boundary value problews of elliptie differential equations for the tidal elevation are derived; in addition, the analytical expressins of the vertical distribution for tidal corrents are deduced.
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125浏览
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冯士筰
,-0001,():
-1年11月30日
首先评介了近海环流理论发展历程及当前研究背景。简介了作者及其合作者建立的近海环流理论的新框架,特别介绍了其最新进展;建立了一个描述近海环流的广义方程组。其速度场是以一个广义物质输运速度来体现的,而“广义物质输运速度”乃“物质输运速度”与近海系统中和潮流同样占优的“准定常流”之和。发展的这一广义模型具有下列两个王要特征:①它不仅适用于仅潮流占优的近海系统,也同样适用于还存在与潮流同阶占优的准定常流的情形,如适用于存在黑潮强流的东中国海系统或某些潮河口洪水期的大径流情况。②它是一个非线性耦合了近海天文湖和环流的κ-ε湍封闭系统。这里一个附加贡献是齐次湍动能封闭模型的提出及其在近海系统中对某些运动形式、特别是对正压潮流作数值模拟的适用性。最后,简介了上述近海环流理论的新框架在环流本身、长期输运及生态动力学诸万面的某些实际应用。
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冯士筰
山东海洋学院不报,1979(2):1-14,-0001,():
-1年11月30日
基于一个非均匀的不可压缩湍流方程组,首先给出了ekman漂流的密度机制;其次,导出了一个“风旋度——热盐梯度方程式”,并对基进行了一般分析。利用该方程式建立了一个大洋风生——热盐歪流的丙层模型,并与观测和某些经典的大洋环流模型作了分析比较。
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【期刊论文】analysis and modelling of the bohai sea ecosystem-a joint german-chinese study
冯士筰, j
journal of marine systems 44(2004)127-140,-0001,():
-1年11月30日
in a joint project (1997-2000), the university of hamburg (germany) and the ocean university of qingdao (china) have investigated the circulation, water mass structure, nutrient fluxes and phytoplankton dynamics in the bohai sea. a hierarchy of coupled circulation, transport and production models for the seasonal scale has been developed and tested against field data from two ship cruises in autumn and spring. the models are available now for scenario calculations under the impact of environmental change.
marine ecosystems, circulation, nutrient fluxes, hydrodynamic modelling
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冯士筰, shizuo feng, ralph t. cheng, pangen xi
water resoureces research, vol.22 no.12, pages 1635-1646, november 1986,-0001,():
-1年11月30日
the transports of solutes and other tracers are fundamental to estuarine processes. the apparent transport mechanisms are convection by tidal current and current-induced shear effect dispersion for processes which take place in a time period of the order of a tidal eyele. however, as emphasis is shifted toward the effects of intertidal processes, the net transport is mainly determined by tide-induced residual circulation and by residual circulation due to other processes. the commonly used intertidal conservation equation takes the form of a convection-dispersion equation in which the convective velocity is the eulerian residual current, and the dispersion terms are often referred to as the phase effect dispersion or, sometimes, as the "tidal dispersion." the presence of these dispersion terms is merely the result of a fickian type hypothesis. since the actual processes are not fickian, thus a fickian hypothesis obscures the physical significance of this equation. recent research results on residual circulation have suggested that long-term transport phenomena are closely related to the lagrngian residual current or the lagrangian residual transport. in this paper a new formulation of an intertidal conservation equation is presented and examined in detail. in a weakly nonlinear tidal estuary the resultant intertidal transport equation also takes the form of a convection-dispersion equation without the ad hoc introduction of phase effect dispersion in a form of dispersion tensor. the convective velocity in the resultant equation is the first-order lagrangian residual current (the sum of the eulerian residual current and the stokes drift). the remaining dispersion terms are important only in higher-order solutions; they are due to shear effect dispersion and turbulent mixing. there exists a dispersion boundary layer adjacent to shoreline bound-anesan order of magnitude estimate of the properties in the dispersion boundary layer is given. the present treatment of intertidal transport processes is illustrated by an analytical solution for an amphidromicsystem and by a numerical application in south san francisco bay, california. the present formulation reveals that the mechanism for long-term transport of solutes is mainly convection due tothe lagrangian residual current in the interior of a tidal estuary. this result also points out the weakness in the tidal dispersion formulation, and explains the large variability of the observed values for tidal dispersion coefficients. further research on properties of the dispersion boundary layer is needed.
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【期刊论文】on circulation in bohai sea yellow sea and east china sea
冯士筰, shizuo feng
,-0001,():
-1年11月30日
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冯士筰, shizuo feng
,-0001,():
-1年11月30日
using a three-dimensional weakly nonlinear baroclinic shallow water model, the lagrangian residual velocity associated with a multi-frequency tidal system has been analyzed. the first-order lagrangian residual velocity, the mass-transport velocity, has been shown to be the sum of the mess-transport velocities derived from the respective constituencs of astronomical tides, and boch the wind-driven (barotropic) and the density-driven (baroclinic) componencs. the second-order perturbacion lagrangian residual velocity, i.e., the lagrangian drift velocity, has been shown to involve a series of nonlinear interactions between the products of the respective conscitutuents of tides, and reflects the periodicities of all the constituents of astronomical tides contained in the multi-frequency tidai system through the initial phases. as an example, the lagranglan drift velocity induced by an m2-s2 tidal system is analyzed in detail for a more thorough understanding of the mechanism of nonlinear interactions of the second-order dynamics. a coupled set of nonlinear field equations for the mass-transport velocicy and the zeroth-order apparent comcentration has been derived and used to describe and understand the shallow water residual circulation along with the intertidal transport processes coupled by the wind stress over the sea surface, the heat flux across the water surface, the horizontal gradient of water density, and the tidal body force resuleing from the nonlinear interaction among the multi-frequency astromomical tidal variables. an application of the model to the summer. the tide-induced component of the residual circulation in the bohai sea is more appropriately associated with and m2-k1 tidal system than an m2-tidal system alone.
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