共查询到19条相似文献,搜索用时 578 毫秒
1.
使用中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室(LASG/IAP)开发的第三代气候海洋模式(LASG/IAP Climate system Ocean Model version 3, LICOM3.0)低分辨率版本在海洋模式比较计划(Ocean Model Intercomparison Project, OMIP)试验中的模拟数据,描述了南极绕极流(Antarctic Circumpolar Current, ACC)和南大洋经向翻转环流(Meridional Overturning Circulation, MOC)在1958~2009年的平均状态及其变化,并与已有的模式模拟结果和观测结果对比以评估LICOM模式的模拟效果。通过对比已有模式模拟数据发现,LICOM3.0模式模拟的ACC和南大洋MOC在两组OMIP试验中平均状态相仿、结果在合理范围内,但OMIP1试验中海表强迫的变化趋势较OMIP2试验中的变化更大,得到的环流输送在OMIP1试验中增长趋势也更大。 相似文献
2.
《高原气象》2017,(4)
三次样条函数(样条格式)为二阶可导非线性格式,但样条格式线性部分是二阶导数中央差。本文在简谐波真解条件下,推导证明二阶导数中央差比一阶导数中央差的空间截断误差以及相速和群速误差均减少一倍。借鉴谱模式动力框架核心思想,高斯网格二维谱变换半隐式-半拉格朗日积分方案,研究准均匀经纬网格样条格式变换显式-准拉格朗日积分方案。引入原始大气运动方程,推导样条格式二阶时空离散准拉格朗日预报方程通式,得出静力守恒气压、气温预报方程,在经纬网格基础上,设计两种基本准均匀经纬网格,通过对压、温、湿、风及广义牛顿力(加速度)场做"经纬网格-准均匀经纬网格"三次样条函数变换,求得"水平双三次曲面+垂直三次样条"拟合上游点三次运动路径,用"匀加速"变率预报风场,进而求得一个时间步长平均"静力平流"三维位移散度场,并用它预报气压场增压和气温场绝热增温,从而实现全球静力质量守恒经纬网格三次样条函数变换显式-准拉格朗日积分方案,经初步积分试验,证明上述动力框架是可行的。 相似文献
3.
全球(Z)双三次数值模式的设计与个例模拟(Ⅱ): 个例模拟结果分析 总被引:4,自引:3,他引:1
引入双三次数值模式:通过"双三次曲面拟合—时间步长积分—双三次曲面拟合—……",实现成为一种新算法的数值模式。在球面Z坐标系上,给出全球经纬网格双三次数值模式的一个设计。全球(Z)双三次数值模式采用非静力、全可压、干/湿绝热大气运动动力框架,并采用显式水平方向准拉格朗日/垂直方向欧拉时间积分方案,用NCEP再分析资料做初值场,初步模拟出从极地到热带的基本大气环流。模拟试验表明:因大气运动本质上是非线性的,当限定模式大气作线性"一次运动"时,个例模拟无须任何平滑;但限定模式大气作"三次运动"时,必须有适当平滑。本文认为,未来双三次数值模式可按场变量双三次曲面曲率,以判断采用符合物理诠释的局域(或单点)平滑;又若大气非线性运动不稳定区恰是天气系统发源地,则全球多重/时变套网格双三次数值模式是今后研究的方向。 相似文献
4.
本文用CORE-IAF(Coordinated Ocean-ice Reference Experiments–Interannual Forcing)外强迫场分别强迫LICOM3(LASG/IAP Climate System Ocean Model Version 3)和POP2(Parallel Ocean Program version 2)两个海洋模式,并分析了这两个模式中太平洋北赤道逆流(NECC)的模拟结果。我们发现LICOM3和POP2模拟的NECC强度均弱于实测,这和Sun et al.(2019)的研究结果一致,也进一步证明了海洋模式中NECC偏弱是CORE-IAF外强迫场造成的,海表风应力及对应的风应力旋度是海洋模式准确模拟NECC的最主要因子。同时,我们也分析了NECC的模拟在动力机制上的差别,这里的动力强迫项包括风应力项、平流项和余项。我们发现模式的外强迫场虽然相同,但是两个模式中各动力强迫项(风应力项、平流项和余项)对NECC模拟的影响并不完全相同。 相似文献
5.
全球海洋模式对不同强迫场的响应 总被引:1,自引:0,他引:1
使用中国科学院大气物理研究所研制的全球海洋环流模式(LASG/IAP Climate system Ocean Model,LICOM),通过设计三个试验,即以德国马克斯—普朗克气象研究所整理的海洋模式比较计划(OMIP)资料和美国国家海洋资料中心(NODC)发布的《世界海洋图集2009》(WOA09)资料为强迫场的试验W,用美国环境预报中心(NCEP)和国家大气研究中心(NCAR)联合推出的NCEP/NCAR再分析资料(简称NCEP资料)中的风应力资料代替试验W中的风应力资料的试验M,以及用NCEP资料中的热力强迫代替试验M中的热力强迫资料的试验N,来研究不同的热力和动力强迫场对模式的影响。三个试验的模拟结果均模拟出了水团和流场的分布型和极值区。从三个试验的结果对比可以看出,NCEP资料较弱的风应力使得试验M环流场明显偏弱,减弱了大洋内部的温盐输送,加大了深海温盐模拟结果与观测资料的偏差,但对原模式过强的南极中层水的输送有所改善。NCEP的短波辐射通量和非短波热通量弱于OMIP,且在两极区域NCEP资料的海表温度比WOA09资料最多低 4℃以上。试验N的模拟结果改善了南大洋60°S以南海区试验W 模拟的海表温度偏高问题,减小了北冰洋部分海域以及副热带大洋东部海表温度的偏差。此外,试验N高纬度较低的海表温度增强了北大西洋深水以及南极底层水的输送,因而改善了深海的温盐模拟结果。三个试验在一些关键海区得到的经向热输送在观测估计及前人模拟结果的范围中,总体上试验M的输送最弱。综合三个试验的模拟结果,可以认为OMIP风应力资料和NCEP海表温度资料更适合作为LICOM模式的强迫场。 相似文献
6.
开展气象数值模式在神威·太湖之光系统的移植与优化,对研究模式与新型计算架构的适应性有重要意义。该文以BCCAGCM模式为研究对象,将其移植到神威·太湖之光全国产异构众核计算系统,进行性能分析,对模式动力框架和物理过程计算结构进行调整,将计算核心段采用OpenACC技术进行众核加速优化,大量代码进行算法重构。结果表明:各核心段计算效率基本达到未优化的3倍左右,最高可达14倍左右,将各核心段集成,形成异构众核集成版本,可正确、稳定运行,计算误差合理。在不同并行规模,采用从核对模式整体计算进行加速效果比较稳定,基本保持在1.9倍,26000核并行规模动力试验并行效率约70%,其他试验约为57%。 相似文献
7.
概述近10年来中国科学院大气物理研究所大气科学和地球流体动力学数值模拟国家重点实验室全球海洋环流模式的发展及其在全球海气耦合模式的发展和气候模拟方面的应用.重点是:一个30层、0.5°×0.5°的准全球海洋环流模式LICOM的建立及其模拟的热带太平洋海洋环流和印度尼西亚贯穿流;以20层海洋模式为海洋分量建立的全球海洋-大气-陆面系统耦合模式GOALS在气候变化模拟方面的应用,和以海洋模式L30T63为海洋分量建立的灵活的耦合环流模式FGCM-0在热带太平洋-印度洋海气相互作用及古海洋-古气候模拟方面的应用 相似文献
8.
为改善球面经纬度网格在高分辨率应用的苛刻限制,提高全球大气动力模式的时间积分效率,选取以阴阳网格为基础构建通量型非静力大气模式动力框架,采用有限体积法和通量型平流显式算法积分方案,保证模式的守恒计算性能。该动力框架在标准三维大气理想试验中进行了中期积分试验,对动力框架的计算效果、性能进行检验。在三维平衡流试验,罗斯贝-豪威茨波试验和山脉罗斯贝波试验中均表现出很好的稳定性和三维计算效果,其中水平2.5°分辨率模式的平衡流垂直速度误差为10-5量级,而经向速度误差在10-2量级,罗斯贝-豪威茨波保持基本波形稳定传播,而地形罗斯贝波试验则给出背风坡激发低槽在发展过程中不断向下游和南半球传播。 相似文献
9.
10.
The impacts of different surface boundary conditions for sea surface salinity on simulation in an OGCM 
下载免费PDF全文
下载免费PDF全文 《大气和海洋科学快报》2016,(6)
盐度是海洋的一个基本状态变量,在海洋环流中起着重要的作用。少量的盐通量扰动都会改变海洋的经向翻转环流和海表温盐场。因此,本文使用了海洋环流模式LICOM2.0研究了不同盐度边界条件对全球总盐量、海表盐度和大西洋经圈翻转环流模拟的影响。结果表明:洋面上的弱恢复项对合理地模拟海表盐度起着重要的作用,且对全球总盐量起着递增的作用;在虚盐通量中使用模拟的海表盐度而非定常的参考盐度能够更合理地模拟大西洋经圈翻转环流;除此之外,含有实盐通量的盐度边界条件能够更好地维持全球总盐量的守恒。 相似文献
11.
The Baseline Evaluation of LASG/IAP Climate System Ocean Model (LICOM) Version 2 总被引:6,自引:0,他引:6 下载免费PDF全文
下载免费PDF全文 The baseline performance of the latest version (version 2) of an intermediate resolution, stand-alone climate oceanic general circulation model, called LASG/IAP (State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics/Institute of Atmospheric Physics) Climate system Ocean Model (LICOM), has been evaluated against the observation by using the main metrics from Griffies et al. in 2009. In general, the errors of LICOM2 in the water properties and in the circulation are comparable with the models of Coordinated Ocean-ice Reference Experiments (COREs). Some common biases are still evident in the present version, such as the cold bias in the eastern Pacific cold tongue, the warm biases off the east coast of the basins, the weak poleward heat transport in the Atlantic, and the relatively large biases in the Arctic Ocean. A unique systematic bias occurs in LICOM2 over the Southern Ocean, compared with CORE models. It seems that this bias may be related to the sea ice process around the Antarctic continent. 相似文献
12.
This paper evaluates the simulation of Arctic sea ice states using an ocean-ice coupled model that employs LASG/IAP(the State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics/the Institute of Atmospheric Physics) Climate Ocean Model(LICOM) and the sea-ice model from the Bergen Climate Model(BCM).It is shown that the coupled model can reasonably reproduce the major characteristics of the mean state,annual cycle,and interannual variability of the Arctic sea ice concentration.The coupled model also shows biases that were generally presented in other models,such as the underestimation of summer sea ice concentration and thickness as well as the unsatisfactory sea ice velocity.Sensitivity experiments indicate that the insufficient performance of the ocean model at high latitudes may be the main reason for the biases in the coupled model.The smoother and the fake "island",which had to be used due to the model’s grid in the North Pole region,likely caused the ocean model’s weak performance.Sea ice model thermodynamics are also responsible for the sea ice simulation biases.Therefore,both the thermodynamic module of the sea ice component and the model grid of the ocean component need to be further improved. 相似文献
13.
A fast version of LASG/IAP climate system model and its 1000-year control integration 总被引:2,自引:1,他引:1
A fast version of the State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geo- physical Fluid Dynamics(LASG)/Institute of Atmospheric Physics(IAP)climate system model is briefly documented.The fast coupled model employs a low resolution version of the atmospheric component Grid Atmospheric Model of IAP/LASG(GAMIL),with the other parts of the model,namely an oceanic component LASG/IAP Climate Ocean Model(LICOM),land component Common Land Model(CLM),and sea ice component from National Center for Atmospheric Research Community Climate System Model (NCAR CCSM2),as the same as in the standard version of LASG/IAP Flexible Global Ocean Atmosphere Land System model(FGOALS g).The parameterizations of physical and dynamical processes of the at- mospheric component in the fast version are identical to the standard version,although some parameter values are different.However,by virtue of reduced horizontal resolution and increased time-step of the most time-consuming atmospheric component,it runs faster by a factor of 3 and can serve as a useful tool for long- term and large-ensemble integrations.A 1000-year control simulation of the present-day climate has been completed without flux adjustments.The final 600 years of this simulation has virtually no trends in global mean sea surface temperatures and is recommended for internal variability studies.Several aspects of the control simulation’s mean climate and variability are evaluated against the observational or reanalysis data. The strengths and weaknesses of the control simulation are evaluated.The mean atmospheric circulation is well simulated,except in high latitudes.The Asian-Australian monsoonal meridional cell shows realistic features,however,an artificial rainfall center is located to the eastern periphery of the Tibetan Plateau persists throughout the year.The mean bias of SST resembles that of the standard version,appearing as a"double ITCZ"(Inter-Tropical Convergence Zone)associated with a westward extension of the equatorial eastern Pacific cold tongue.The sea ice extent is acceptable but has a higher concentration.The strength of Atlantic meridional overturning is 27.5 Sv.Evidence from the 600-year simulation suggests a modulation of internal variability on ENSO frequency,since both regular and irregular oscillations of ENSO are found during the different time periods of the long-term simulation. 相似文献
14.
An eddy-permitting oceanic general circulation model and its preliminary evaluation 总被引:56,自引:11,他引:45
1. Introduction The current oceanic general circulation models(GCMs) used in climate studies, especially those serv-ing as component models in coupled GCMs, havean average resolution around 2? (IPCC, 2001). Theoceanic GCMs with relatively coarse resolutions canreproduce the major observed features of the large-scale circulations, but there are some insurmount-able di?culties. It was documented by Gates (1992)that the main defects of the coarse resolution oceanicGCMs include the repres… 相似文献
15.
ENSO循环年代际变化及其数值模拟 总被引:2,自引:1,他引:1
从20世纪70年代后期的观测资料分析中显示了全球气候的年代际变化, 同时也表现在热带太平洋上最重要的海气耦合现象ENSO的年代际变化上。本文利用中国科学院大气物理研究研究所 (IAP) 大气科学和地球流体力学数值模拟国家重点实验室 (LASG) 的气候系统海洋模式 (简称LICOM), 对ENSO的年际以及年代际变率进行模拟, 结果表明LICOM基本能够模拟出ENSO年际变化的特征, 通过对海洋上层热含量的计算以及对热量和质量输送的变化分析, 能够看到模式中ENSO循环中的反馈机制与理论研究的结论是一致的。同时, 作者还发现模式能够重现ENSO循环的年代际变化特征, 例如周期、 传播方向和冷暖事件不对称性等特征的模拟也基本接近观测事实, 其中重点分析了冷暖事件的不对称性与非线性加热 (NDH) 之间的关系, 进一步分析还发现ENSO的强度、 不对称性与海洋内部的非线性过程之间在年代际尺度上也存在密切的关系。但是, 模式模拟与观测结果之间仍然存在着一定的误差, 模式有待于进一步改进。 相似文献
16.
1 INTRODUCTIONIn global climate models belonging to the finitedifference calculation category, the equations aregenerally solved in normal spherical coordinates. Due tothe convergence of meridians towards the poles inspherical coordinates, the combination of thiscoordinate system and explicit finite-difference methodsleads to two problems. First, the pole itself is a point ofsingularity with direction undefined. Second, due to thedependence of the stability from finite-differencenumerics … 相似文献
17.
耦合模式FGOALS_s模拟的东亚夏季风 总被引:9,自引:6,他引:3
本文评估了中国科学院大气物理研究所大气科学和地球流体力学数值模拟国家重点实验室的海气耦合模式FGOALS_s对东亚夏季风的模拟能力, 并通过与观测海温强迫下单独大气模式SAMIL试验结果的比较, 分析了海气耦合过程对模式性能的影响。结果表明, FGOALS_s基本能够模拟出东亚夏季风系统的气候态分布及其演变过程, 但也存在明显偏差, 主要表现为模拟的温度场在对流层中上层一致性偏冷, 导致模式中环流系统强度偏弱; 而温度经向梯度模拟的不足, 直接影响到东亚副热带西风急流的模拟。通过与观测海温强迫下SAMIL模拟结果的对比发现, SAMIL模拟的温度场、 环流场以及风场较之耦合模式结果更接近观测, 但也存在与FGOALS_s类似的模式偏差。因此, 大气模式固有的偏差对耦合模式的模拟偏差有重要影响。分析发现, 对于西太平洋降水的模拟而言, 耦合模式结果更加合理, 表明海气相互作用过程对模式性能有重要影响。本文的结果表明, 大气模式自身的误差是导致耦合模式误差的主要原因。通过更新云-辐射模块改进大气模式模拟的温度场, 应是FGOALS_s后续发展的首要工作。 相似文献
18.
Sensitivity of the Upper Ocean Temperature and Circulation in the Equatorial Pacific to Solar Radiation Penetration Due to Phytoplankton 总被引:2,自引:1,他引:2
Solar radiation penetration in the upper ocean is strongly modulated by phytoplankton, which impacts the upper ocean temperature structure, especially in the regions abundant with phytoplankton. In the paper, a new solar radiation penetration scheme, based on the concentration of chlorophyll-a, was introduced into the LASG/IAP (State Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics/Institute of Atmospheric Physics) Climate system Ocean Model (LICOM). By comparing the simulations using this new scheme with those using the old scheme that included the constant e-folding attenuation depths in LICOM, it was found that the sea surface temperature (SST) and circulation in the central and eastern equatorial Pacific were both sensitive to the amount of phytoplankton present. Distinct from other regions, the increase of chlorophyll-a concentration would lead to SST decrease in the central and eastern equatorial Pacific. The higher chlorophyll-a concentration at the equator in comparison to the off-equator regions can enlarge the subsurface temperature gradient, which in turn strengthens the upper current near the equator and induces an enhancing upwelling. The enhancing upwelling can then lead to a decrease in the SST in the central and eastern equatorial Pacific. The results of these two sensitive experiments testify to the fact that the meridional gradient in the chlorophyll-a concentration can result in an enhancement in the upper current and a decrease in the SST, along with the observation that a high chlorophyll-a concentration at the equator is one of the predominant reasons leading to a decrease in the SST. This study points out that these results can be qualitatively different simply because of the choice of the solar radiation penetration schemes for comparison. This can help explain previously reported contradictory conclusions. 相似文献
19.
ZHOU Tianjun 《大气科学进展》2013,30(3):542-542
<正>The Flexible Global Ocean-Atmosphere-Land System model (FGOALS) is a coupled climate model that allows researchers to conduct fundamental research into the Earth's past, present, near-term and long-term future climate states. FGOALS couples the ocean, atmosphere, land, and sea ice through a coupler that coordinates the component models and passes the exchange of energy, momentum, and water among them. The 相似文献