Thermal erosion of felsic ground by the laminar flow of a basaltic lava, with application to the Cave Basalt, Mount St. Helens, Washington

Ross C. Kerr

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Thermal erosion of felsic ground by the laminar flow of a basaltic lava, with application to the Cave Basalt, Mount St. Helens, Washington

机译：玄武岩熔岩层流对长石质地面进行热蚀，应用于华盛顿州圣海伦斯山的玄武岩洞

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The thermal erosion of cold felsic ground by the steady laminar flow of a hot basaltic lava is examined theoretically and experimentally. Initially, a chill layer is grown and then remelted at the base of the lava flow. A steady thermal erosion velocity is then established, which is limited by the buoyant instability of the melted ground or by the effective freezing temperature of the basaltic lava. When the theoretical analysis is applied to the longest lava tube system of the Cave Basalt on Mount St. Helens, it is found that about 100 days of flow is sufficient to produce the observed ground erosion in Little Red River, Ape and Lake Caves.

机译：理论上和实验上都研究了热玄武岩熔岩的稳定层流对冷长石质地面的热侵蚀。最初，冷却层生长，然后在熔岩流的底部重新熔化。然后建立了稳定的热侵蚀速度，该速度受到融化地面的浮力不稳定或玄武岩熔岩的有效冻结温度的限制。将理论分析应用于圣海伦斯山上最长的熔岩玄武岩熔岩管系统时，发现大约100天的流量足以在小红河，猿猴和湖洞中产生观测到的地面侵蚀。

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《Journal of geophysical research. Solid earth: JGR》 |2009年第b9期|共14页
作者
Ross C. Kerr;
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原文格式 PDF
正文语种 eng
中图分类地球物理学;
关键词
erosion; temperature; theoretical;

机译：侵蚀;温度;理论;

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1. Thermal erosion of felsic ground by the laminar flow of a basaltic lava, with application to the Cave Basalt, Mount St. Helens, Washington [J] . Ross C. Kerr Journal of geophysical research. Solid earth: JGR . 2009,第B9期

机译：玄武岩熔岩层流对长石质地面进行热蚀，应用于华盛顿州圣海伦斯山的玄武岩洞
2. Erosion by flowing lava: geochemical evidence in the Cave Basalt, Mount St. Helens, Washington [J] . Daid A. Williams, Steven D. Kadel, Ronald Greeley, Bulletin of Volcanology: Journal of the International Association of Volcanology and Chemistry of the Earth s Interior . 2004,第2期

机译：流动的熔岩侵蚀：华盛顿圣海伦斯山的玄武岩洞中的地球化学证据
3. Lava Tubes of the Cave Basalt, Mount St. Helens, Washington [J] . RONALD GREELEY, JACK H HYDE GSA Bulletin . 1972,第8期

机译：洞玄武岩的熔岩管，华盛顿圣海伦斯山
4. Clay mineralogy and construction problems in volcanic soils near Mount St. Helens: Sediment Retention Structure, southwestern Washington, USA [C] . Michael L. Cummings International clay conference . 2003

机译：粘土矿物学与圣海伦山泥土土壤中的施工问题：沉积物保留结构，美国西南华盛顿州，美国
5. The cooling of terrestrial basaltic lava flows and implications for lava flow emplacement on Venus from surface morphology and radar data. [D] . Hultgrien, Lynn Kerrell. 2001

机译：地表玄武岩熔岩流的冷却及其对熔岩流在金星上的位置的影响，来自表面形态学和雷达数据。
6. One- two- and three-phase viscosity treatments for basaltic lava flows [O] . Andrew J. L. Harris, John S. Allen III -1

机译：玄武岩熔岩流的一相两相和三相粘度处理
7. Evidence of Erosional Self-Channelization of Pyroclastic Density Currents Revealed by Ground-Penetrating Radar Imaging at Mount St. Helens, Washington (USA) [O] . Gase, Andrew C., Brand, Brittany D., Bradford, John H. 2017

机译：美国华盛顿州圣海伦斯山的探地雷达成像揭示了火山碎屑密度流侵蚀性自沟道化的证据。

Thermal erosion of felsic ground by the laminar flow of a basaltic lava, with application to the Cave Basalt, Mount St. Helens, Washington

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