A continuum anisotropic model of sea-ice dynamics

Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences Pub Date : 2004-07-08 DOI:10.1098/rspa.2004.1282

A. Wilchinsky, D. Feltham

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引用次数: 40

Abstract

We develop the essential ingredients of a new, continuum and anisotropic model of sea-ice dynamics designed for eventual use in climate simulation. These ingredients are a constitutive law for sea-ice stress, relating stress to the material properties of sea ice and to internal variables describing the sea-ice state, and equations describing the evolution of these variables. The sea-ice cover is treated as a densely flawed two-dimensional continuum consisting of a uniform field of thick ice that is uniformly permeated with narrow linear regions of thinner ice called leads. Lead orientation, thickness and width distributions are described by second-rank tensor internal variables: the structure, thickness and width tensors, whose dynamics are governed by corresponding evolution equations accounting for processes such as new lead generation and rotation as the ice cover deforms. These evolution equations contain contractions of higher-order tensor expressions that require closures. We develop a sea-ice stress constitutive law that relates sea-ice stress to the structure tensor, thickness tensor and strain rate. For the special case of empty leads (containing no ice), linear closures are adopted and we present calculations for simple shear, convergence and divergence.

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海冰动力学的连续各向异性模型

我们开发了一个新的、连续的和各向异性的海冰动力学模型的基本成分，设计最终用于气候模拟。这些成分是海冰应力的本构律，将应力与海冰的材料特性和描述海冰状态的内部变量以及描述这些变量演变的方程联系起来。海冰覆盖被看作是一个密集缺陷的二维连续体，由均匀的厚冰场组成，厚冰场均匀地渗透着被称为引线的较薄冰的狭窄线性区域。导联取向、厚度和宽度分布由二级张量内部变量描述:结构、厚度和宽度张量，其动力学由相应的演化方程控制，该方程考虑了冰盖变形时新导联产生和旋转等过程。这些演化方程包含需要闭包的高阶张量表达式的收缩。建立了海冰应力与结构张量、厚度张量和应变率之间的本构关系。对于空引线(不含冰)的特殊情况，采用线性闭包，并给出了简单剪切、收敛和散度的计算。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences

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期刊介绍： Proceedings A publishes articles across the chemical, computational, Earth, engineering, mathematical, and physical sciences. The articles published are high-quality, original, fundamental articles of interest to a wide range of scientists, and often have long citation half-lives. As well as established disciplines, we encourage emerging and interdisciplinary areas.