冰川下沉积物水层耗散过程的连续力学模拟

Comptes Rendus de l'Académie des Sciences - Series IIB - Mechanics-Physics-Chemistry-Astronomy Pub Date : 1997-10-01 DOI:10.1016/S1251-8069(97)89446-8

Francesco dell'Isola , Kolumban Hutter

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引用次数: 8

摘要

在温带冰川下，饱和的粘性、导热的沉积物水层的固体物质通过侵蚀下面的岩层而增长。我们建议将这一层建模为流体和固体的饱和混合物连续体。我们在体积上阐述了它的平衡规律，并跳跃局部形式如下，例如Germain和Muller(1986)。水的平衡解释了水流入岩层和覆盖在上面的冰盖内的冰的融化。由于应力、达西相互作用力和滑动摩擦所消耗的能量而产生的耗散支配着这个热机械系统。我们的分析表明，与文献中所述相反，所列出的耗散机制都是相关的。

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Continuum mechanical modelling of the dissipative processes in the sediment-water layer below glaciers

The solid mass of the saturated viscous, heat-conducting sediment-water layer below temperate glaciers grows by abrading the underlying rockbed. We propose to model this layer as a saturated mixture continuum of fluid and solid. We formulate its balance laws in volume and jump local forms following, e.g. Germain and Muller (1986). The water balance accounts for its drainage into the rockbed and the melting of ice within the overlaid ice sheet. Dissipation due to the power expended by stresses, the Darcy interaction force and sliding friction governs this thermomechanical system. Our analysis establishes that, contrary to what is stated in the literature, the listed dissipative mechanisms are all relevant.

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Comptes Rendus de l'Académie des Sciences - Series IIB - Mechanics-Physics-Chemistry-Astronomy

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