海冰中的渗流相变。

The percolation phase transition in sea Ice.

作者信息

Golden KM, Ackley SF, Lytle VI

机构信息

K. M. Golden, Department of Mathematics, University of Utah, Salt Lake City, UT 84112, USA. S. F. Ackley, U.S. Army Cold Regions Research and Engineering Laboratory, Hanover, NH 03755, USA. V. I. Lytle, Antarctic Cooperative Research Centre a.

出版信息

Science. 1998 Dec 18;282(5397):2238-41. doi: 10.1126/science.282.5397.2238.

DOI:10.1126/science.282.5397.2238

PMID:9856942

Abstract

Sea ice exhibits a marked transition in its fluid transport properties at a critical brine volume fraction pc of about 5 percent, or temperature Tc of about -5 degreesC for salinity of 5 parts per thousand. For temperatures warmer than Tc, brine carrying heat and nutrients can move through the ice, whereas for colder temperatures the ice is impermeable. This transition plays a key role in the geophysics, biology, and remote sensing of sea ice. Percolation theory can be used to understand this critical behavior of transport in sea ice. The similarity of sea ice microstructure to compressed powders is used to theoretically predict pc of about 5 percent.

摘要

海冰在约5%的临界卤水体积分数pc或千分之五盐度下约-5摄氏度的临界温度Tc时，其流体传输特性会出现显著转变。对于高于Tc的温度，携带热量和营养物质的卤水可以在冰中移动，而对于更低的温度，冰是不可渗透的。这种转变在海冰的地球物理学、生物学和遥感中起着关键作用。渗流理论可用于理解海冰中这种关键的传输行为。海冰微观结构与压缩粉末的相似性被用于从理论上预测pc约为5%。

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海冰中的渗流相变。

The percolation phase transition in sea Ice.

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