部分润滑粘性重力流应力扰动的理论分析

Joshua H. Rines, Ching-Yao Lai, Yongji Wang
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摘要

我们对受到空间有限润滑(即 "光滑斑块")作用的粘性重力流的动力学进行了理论研究。这项工作的动机是接地冰原流经基质水斑块,基质水斑块降低了冰床摩擦耦合,导致扰动增强了冰的运动,并对冰流入海洋的流量增加和海平面上升产生了影响。冰流的特点是在剪切力和拉伸力主导的动力学之间转换,这就需要在转换点采用边界层解法。我们建立了一个深度整合的牛顿流分析模型,简明扼要地揭示了冰盖几何形状(厚度、表面坡度和滑动斑块长度)与由此产生的水平偏差应力的大小和空间范围之间的基本关系。这个降阶分析模型与使用二维牛顿斯托克斯方程进行的数值模拟显示出良好的定量一致性,并进一步扩展到非牛顿流的情况。根据降阶模型,我们合理地解释了滑动斑块引起的应力扰动是斑块上游距离的指数衰减函数。我们还证明,扰动的振幅与表面坡度和斑块长度成线性关系,而衰减长度与冰厚度成线性关系。这些基本关系对格陵兰冰盖在未来变暖的几十年中对基底融水向内陆扩张的反应具有影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical analysis of stress perturbations from a partially-lubricated viscous gravity current
We present a theoretical investigation into the dynamics of a viscous gravity current subjected to spatially-finite lubrication (i.e., a `slippery patch'). The work is motivated by grounded ice sheets flowing across patches of basal meltwater which reduce the ice-bed frictional coupling, causing perturbations enhancing ice motion, with implications for increased ice flux into the ocean and sea level rise. The flow is characterized by transitions between shear- and extension-dominated dynamics, which necessitates boundary-layer solutions at the transition points. We develop a depth-integrated analytical model of Newtonian flow which concisely reveals fundamental relationships between ice sheet geometry (thickness, surface slope, and slippery patch length) and the magnitude and spatial extent of resulting horizontal deviatoric stresses. This reduced-order analytical model shows good quantitative agreement with numerical simulations using 2-D Newtonian Stokes equations, which are further extended to the case of a non-Newtonian flow. From the reduced-order model, we rationalize that the slippery patch-induced stress perturbations are exponentially-decaying functions of distance upstream away from the patch onset. We also show that the amplitude of the perturbation scales linearly with the surface slope and patch length while the decay lengthscale scales linearly with ice thickness. These fundamental relationships have implications for the response of the Greenland Ice Sheet to the inland expansion of basal meltwater presence over the coming warming decades.
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