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1.
南海上层海洋环流两层半模式的数值模拟Ⅰ.闭边界海盆季节性环流 总被引:10,自引:4,他引:10
本文应用一个包含动力学和热力学的热带海洋两层半模式,模拟南海上层海洋闭边界条件下的季节性环流.模式海洋由不同密度的上混合层、季节性温跃层和静止的深水层组成.模式考虑挟卷(卷入entrainment和卷出detrainment)引起海洋上下活动层间的质量、动量与热量的交换,在海面月平均气候风场动力强迫和通过海面热通量的热力影响下,计算了封闭海盆假定下的南海上层海洋的季节环流.用数值试验的方法讨论了非线性效应、摩擦阻尼、侧向混合对大尺度环流的影响,并得出有关模式稳定性的结论.模拟结果与南海海洋实测和动力诊断的环流趋势吻合较好,显示了模式对南海海盆尺度的环流系统有较好的模拟能力. 相似文献
2.
中国近海环流数值模拟研究综述 总被引:1,自引:0,他引:1
按照研究时间由早期到现代,研究方法由简单到复杂的顺序,综述了近几十年来海洋数值模拟工作在中国近海所取得的研究成果.目前,通过数值模式已经能够基本合理地模拟中国近海的海洋环流,黑潮、台湾暖流、黄海暖流等的路径、流量,对马暖流源区等问题的特征在数值模拟结果中也逐渐清晰.通过分析已有的工作,认为还存在多项关键技术问题,并受对中国近海环流认知程度的限制,中国近海环流的数值模拟研究还需要进一步的发展和完善.在未来的数值模拟研究中,通过变网格或多重网格嵌套技术,实现中国近海高分辨率的数值模式;应用更加符合实际情况的海洋参数化方案,发展风-浪-流-潮耦合模式;结合资料同化技术,发展预报模式等都应是中国近海环流数值模拟研究的重点发展方向. 相似文献
3.
基于大涡模拟和局部滤波同化方法的海洋环流模式 总被引:3,自引:1,他引:2
结合最小二乘法极值原理,提出了一种基于局部谱展开的滤波同化方法,把测量数据和数值计算过程中出现的高频短波滤掉,并将高度计数据同化到了求解过程中.结果既增加了数值稳定性,又提高了数值模拟的准确性.针对在海洋环流问题中水平的流动性质和垂直的不同的特点,我们还将大涡模拟的思想和直接涡黏的思想分别应用于水平方向和垂直方向,给出的方法是一种适用于海洋环流和浅水环流问题的大涡模拟湍流模式.对热带和北太平洋一年四季非定常季风作用下环流的数值模拟表明,提出的方法非常有效,数值结果与实际相当吻合. 相似文献
4.
海洋环流是海洋科学研究的1个焦点.本文首次建立了东中国海环流自适应数值模型.由于所设计的自适应网格既与边界适应,又在水深变化急剧的东海陆坡处得以加密,从而使坐标变换下的三维斜压模式克服了跨越陆坡计算这一难题,并以期获得更为精确的数值研究成果.该模型基于Lagrange时均观点,而非Euler观点.它可计算海域三维斜压流场,从而得到其风生-热盐-潮致Lagrange环流.模拟结果与实测及现有的数值研究结果比较,合理可信.其中黄海暖流的起源问题,计算结果与传统观点相悖,而与近期实测结果一致.本文为系列报道之首篇. 相似文献
5.
分别用Ekman有限深海风漂流计算公式,普林斯顿海洋模式(POM)数值计算了南黄海风漂流。通过对这两种方法的计算结果的对比分析得出:在水深较小时,模式计算的风漂流场与公式计算结果较为接近;而在水深较大时公式计算所得风漂流场与实际流场相差较大,模式计算的风漂流场则基本再现了夏季南黄海的环流结构;风速越大,两种计算方法所得的流场之间的差别越大。同时从数值试验的角度还得到夏季由于风速普遍偏小,风场对环流结构的影响都相对较小,热盐效应是控制夏季环流的主导因素。但当风速增大到一定程度时,环流结构会发生根本改变。 相似文献
6.
潮致混合对海洋环流的调整起着重要作用。陆架环流的数值模拟中如果不考虑潮汐作用,往往不能得到与观测相符的垂向温盐结构。本文基于调和分析方法,建立了一套潮致混合参数化方案。该方案通过对垂向混合系数进行调和分析,从而得到随时间变化的潮致混合系数。将该方案用于黄海冷水团数值模拟的结果显示,其能够得到与在数值模式开边界直接加入潮汐强迫相当的冷水团温盐结构。和直接引入潮汐强迫相比,这一潮致混合参数化方案的优势在于,它能够大大节省数值模拟计算机时,因此有望显著提高大规模高分辨率的海洋环流及气候模式的模拟能力和计算效率。 相似文献
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8.
为研究大尺度海洋环流和一些大尺度海洋物理过程,我们建立了一个无海底地形的三层斜压海洋环流数值模式。模式方程采用了静力近似和Boussinesq近似,在上边界采用了钢盖近似。同时,还做了两个数值试验:第一个模拟试验,海洋从静止状态开始,以4个季节的气候平均风应力和海表大气季节平均温度为强迫条件,积分区城选择45℃以北的太平洋,数值积分了5个模式年,这时海洋的上层环流和温度的年变化趋于平稳。计算结果再现了太平洋气候平均状态的海温分布和主要海流的大尺度特征以及它们的年变化特征。如西部强化流、赤道潜流等。第二个数值试验,在第一个数值模拟的基础上给定赤道西太平洋一个风应力异常区,数值积分了几个月。从计算结果中可看到类似E1 Ni■o的现象,并且初步地分析了赤道波动在E1 Ni■o形成过程中的作用。 相似文献
9.
10.
基于有限体积方法的海洋数值模式FVCOM,计算了南黄海西部六月份潮致余流及风生环流,分析了潮致余流、初夏风生环流各自的环流结构,得出六月份该区域风生环流占主导,偏南风的作用较为显著,潮致余流相对较弱。最后将风和潮汐进行耦合计算,得出该区域初夏的环流结构,表层海水大体为由南至北的流动,说明该区域风力为主要驱动力。计算结果与流速及环流实测资料吻合较好,为进一步研究浒苔的漂移轨迹等奠定了动力基础。 相似文献
11.
在大洋环流模式中,铅直混合的参数化方法起着关键性的作用。将大洋细结构混合参数化方法首次应用于世界大洋环流模式中。使用中科院大气所(LASG)发展的20层世界大洋环流模式(OGCM)ML20,月平均风场作为强迫场,利用ML20模式在稳定初始状态下运行300a后的计算结果作为本实验进行数值模拟的初始场。该参数化方法对世界大洋环流模式的影响主要表现为:永久性温度跃层的厚度明显变薄;对深层水和底层水的模拟有改进;对南极中层水的模拟比较成功;但是对赤道海区的模拟结果欠佳。 相似文献
12.
在大洋环流模型中对应于惯性内波破碎的垂直混合的一个参数化方案 总被引:1,自引:0,他引:1
Based on the theoretical spectral model of inertial internal wave breaking(fine structure) proposed previously, in which the effects of the horizontal Coriolis frequency component f-tilde on a potential isopycnal are taken into account, a parameterization scheme of vertical mixing in the stably stratified interior below the surface mixed layer in the ocean general circulation model(OGCM) is put forward preliminarily in this paper. Besides turbulence, the impact of sub-mesoscale oceanic processes(including inertial internal wave breaking product) on oceanic interior mixing is emphasized. We suggest that adding the inertial internal wave breaking mixing scheme(F-scheme for short) put forward in this paper to the turbulence mixing scheme of Canuto et al.( T-scheme for short) in the OGCM, except the region from 15°S to 15°N. The numerical results of F-scheme by using WOA09 data and an OGCM(LICOM, LASG/IAP climate system ocean model) over the global ocean are given. A notable improvement in the simulation of salinity and temperature over the global ocean is attained by using T-scheme adding F-scheme, especially in the mid- and high-latitude regions in the simulation of the intermediate water and deep water. We conjecture that the inertial internal wave breaking mixing and inertial forcing of wind might be one of important mechanisms maintaining the ventilation process. The modeling strength of the Atlantic meridional overturning circulation(AMOC) by using T-scheme adding F-scheme may be more reasonable than that by using T-scheme alone, though the physical processes need to be further studied, and the overflow parameterization needs to be incorporated. A shortcoming in F-scheme is that in this paper the error of simulated salinity and temperature by using T-scheme adding F-scheme is larger than that by using T-scheme alone in the subsurface layer. 相似文献
13.
Applications of adjoint data assimilation, which is designed to bring an ocean circulation model into consistency with ocean
observations, are computationally demanding. To improve the convergence rate of an optimization, reduced-order optimization
methods that reduce the size of the control vector by projecting it onto a limited number of basis functions were suggested.
In this paper, we show that such order reduction can indeed speed up the initial convergence rate of an assimilation effort
in the eastern subtropical North Atlantic using in situ and satellite data as constraints. However, an improved performance of the optimization was only obtained with a hybrid approach
where the optimization is started in a reduced subspace but is continued subsequently using the full control space. In such
an experiment about 50% of the computational cost can be saved as compared to the optimization in the full control space.
Although several order-reduction approaches seem feasible, the best result was obtained by projecting the control vector onto
Empirical Orthogonal Functions (EOFs) computed from a set of adjusted control vectors estimated previously from an optimization
using the same model configuration. 相似文献
14.
Ayumi Fujisaki Hajime Yamaguchi Fengjun Duan Genki Sagawa 《Journal of Oceanography》2007,63(5):775-790
In this study, a numerical model of 7-day forecast of sea ice produced by the Japan Meteorological Agency was improved by
the following approaches. First, a new ice dynamic model was introduced: the distributed mass/discrete floe model. The model
takes account of discrete characteristics of ice floes and well simulates the ice edge location at low computational cost.
Secondly, the grid size was reduced to 5 × 5 km for the future high resolution forecasts. Next, the sea surface current data
was examined because it significantly influences sea ice movement. We applied two new datasets of HINO and Okhotsk Ocean General
Circulation Model (Okhotsk OGCM), which are estimated by numerical simulations, for the 7-day forecast of sea ice. Ice southward
speed in January and the whorl formations in February and March were well reproduced with Okhotsk OGCM datasets. Finally,
the ocean heat flux at the ice-ocean interface was refined. As a result, we achieved an ice edge error reduction from 30.8
km to 23.5 km. 相似文献
15.
韩忠南 《海洋学报(英文版)》1987,6(4):537-546
A computational method for the ocean ship routing based on optimization theory is presented in this paper. In the computational programme "breaking circle method" is used, by which a principal contradictory line can be obtained in the operations research. The automatic selection of calculating network and the initial values have been realized. The quantitative estimation for the change of navigating speed under the different conditions of ocean wave and current has been done. The objectivly quantitative computational method is provided for ocean ship routing and forecast service following ship tracks. The calculating examples and practical experiments of ships have proved that this computational method is highly effective. 相似文献
16.
The response time of the large-scale oceanic circulation due to freshwater perturbations is investigated with models of different complexity. A three-dimensional ocean general circulation model (OGCM) and a zonally averaged ocean model are employed. In order to distinguish advection and diffusion from fast baroclinic processes (e.g. waves in the OGCM) a color tracer is injected at the same time and location as the freshwater discharges. In spite of the inability of the zonally averaged model to represent wave processes in a realistic way similarities with the OGCM are found for the propagation patterns of density anomalies and of color tracer. In the OGCM as well as in the zonally averaged model, density anomalies propagate faster than anomalies of a passive color tracer in the case of vertical density stratification. The progression of density anomalies leads to changes of the oceanic circulation, and both oceanic models exhibit circulation changes in areas distant from the discharge places long before the passively entrained color tracer has reached these regions. The fact that a zonally averaged model simulates baroclinic processes faster than advection even if internal gravity waves are not represented due to neglected acceleration terms, is clarified with a conceptual box model. 相似文献
17.
国家气候中心全球海洋资料四维同化系统在热带太平洋的结果初步分析 总被引:6,自引:0,他引:6
介绍了国家气候中心(NCC)“全球海洋资料四维同化系统”(简称NCC-GODAS).该系统包含观测资料预处理系统、插值分析系统和所应用的动力模式.插值分析系统采用四维同化技术方案,在时间上设置一个4周的窗口,将此窗口之内的观测资料以一定的权重插入插值分析系统,在空间上采用三维变分方案.海洋动力模式为“九五”期间LASG研制的L30T63OGCM 1 0版本.文中考察了该系统从1982年到2003年3月在热带太平洋的部分同化分析结果,并与NCEP的再分析资料和EMC/NCEP的太平洋区域海洋资料同化系统的结果进行了对比分析.结果显示,该系统的同化结果(如SST,SSTA,Nino指数,次表层海温变化等)与NCEP的同期同化结果具有很好的一致性.同时,该系统得出的海洋同化资料气候场与海洋模式气候场相比,有显著的改进.表明该系统具有较好的同化能力,其同化结果可为海-气耦合模式进行季节和跨季节的气候预测业务提供可信的海洋初始场资料,同时还可以为相关研究提供海洋分析场. 相似文献
18.
The direct disposal of CO2 into the ocean interior represents a possible means to help mitigate rising levels of atmospheric CO2. Here, we use three different versions of an ocean general circulation model (OGCM) to simulate the direct injection of liquid CO2 near Tokyo. Our results confirm that direct injection can sequester large amounts of CO2 from the atmosphere when disposal is made at sufficient depth (80–100% of the carbon injected at 3000 m remains in the ocean after 500 years) but show that the calculated efficiency is rather sensitive to the choice of physical model. Moreover, we show, for the first time in an OGCM and under a reasonable set of economic assumptions, that sequestration effectiveness is quite high for even shallow injections. However, the severe acidification that accompanies injection and the impossibility of effectively monitoring injected plumes argue against the large-scale viability of this technology. Our coarse-grid models show that injection at the rate of 0.1 Pg-C/yr lowers pH near the site of injection by as much as 0.7–1.0 pH-unit. Such pH anomalies would be much larger in more finely gridded models (and in reality) and have potential to severely harm deep-sea organisms. We also show that, after several hundred years, one would effectively need to survey the entire ocean in order to accurately verify the inventory of injected carbon. These results suggest that while retention may be sufficient to justify disposal costs, other practical problems will limit or at best delay widespread deployment of this technology. 相似文献
19.
Non-linear evolution of uni-directional focussed wave-groups on a deep water: A comparison of models
Up until the point at which ocean waves break, their dynamics are generally assumed to be accurately modelled by potential flow theory. For practical and computational reasons it is often useful to approximate the full potential flow solution with bandwidth and amplitude limited equations. A approximation used for waves on deep water is the Broad-banded Modified Non-linear Schrödinger equation (also known as the modified Dysthe equation). In this paper we compare this approximate model with potential flow simulations of focussing uni-directional wave-groups. We find that for moderate non-linearity the approximate model predicts very similar changes to the potential flow model. However, one of the dominant non-linear changes to the wave-group is a localised increase in the bandwidth and contraction in physical length, and beyond a certain point the approximate model fails to accurately reproduce this causing other elements, such as the maximum wave amplitude, to be poorly modelled. This modelling inaccuracy occurs in cases where, based on the initial conditions of the simulation, the approximate model would be expected to be accurate. 相似文献
20.
An alternative ‘compressed’ coordinate system for representing finite difference grids in ocean models is presented and compared with the traditional Cartesian method. The alternative method represents any arbitrary three-dimensional domain as a one-dimensional vector. Advantages of using this method include the exclusion of all land ‘dry’ points from the computational grid, leading to savings in the memory used and increased execution speed where domains have a low ratio of wet to total computational cells. The Cartesian and compressed models are applied to a variety of domains to assess the performance of each in terms of memory use and computational speed. 相似文献