气候变化领域集成服务门户(CCPortal): The role of external water on rapid cooling and fragmentation of magma

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DOI	10.1016/j.epsl.2020.116194
	The role of external water on rapid cooling and fragmentation of magma
	Moitra P.; Sonder I.; Valentine G.A.
发表日期	2020
ISSN	0012821X
卷号	537
英文摘要	The cooling rate of magma in the presence of external water during phreatomagmatic and submarine eruptions is one of the key parameters governing non-explosive to explosive magma fragmentation and eruption transitions, but remains poorly constrained. Combining results from laboratory experiments with realistic eruptive temperatures of magma cooling in ambient water of variable temperatures, and numerical modeling of transient heat transfer, we find that magma-to-water heat flux can be up to 4×106 W m−2. The experiments exhibit two distinct water boiling regimes: A film-boiling regime defined by the presence of a coherent water vapor film between magma surface and ambient water, and a nucleate boiling regime below a critical magma surface temperature (known as the Leidenfrost temperature), where the vapor film breaks and numerous bubbles form at the magma-water interface. In general the vapor film was stable in our experiments for time scales of ≤ 5 s, indicating that this might be a limiting factor in pre-explosion magma-water mixing for energetic molten fuel-coolant interaction and explosive volcanic eruptions. The time scale of vapor film stability increases and the Leidenfrost temperature (1223 to 948 K) decreases with increasing water temperature (276 to 366 K). We show that for the empirically obtained large heat flux to external water, the cooling rate of magma can reach up to 106 K s−1 at length scales of few microns, thus magma may undergo fine fragmentation due to quench-induced large thermal stresses. Our experimental and modeling results demonstrate that the time scales of various water boiling regimes, and erupting magma and ambient water temperatures determine the magma-to-water heat transfer rates, which in turn determine the transition to explosivity under subaqueous eruption conditions. © 2020 Elsevier B.V.
关键词	explosive and non-explosive magma fragmentation magma cooling rate magma water interaction phreatomagmatic and submarine eruptions stable vapor film water boiling regimes
英文关键词	Explosives; Heat flux; Submarines; Temperature; Time measurement; Volcanoes; Cooling rates; Non explosives; Phreatomagmatic; Vapor films; Water interactions; Cooling; cooling; heat flux; heat transfer; magma; phreatomagmatism; submarine volcano; volcanic eruption; water
语种	英语
来源期刊	Earth and Planetary Science Letters
文献类型	期刊论文
条目标识符	http://gcip.llas.ac.cn/handle/2XKMVOVA/202792
作者单位	Lunar and Planetary Laboratory, University of Arizona, AZ, United States; Department of Geology, Center for Geohazards Studies, University at BuffaloNY, United States
推荐引用方式 GB/T 7714	Moitra P.,Sonder I.,Valentine G.A.. The role of external water on rapid cooling and fragmentation of magma[J],2020,537.
APA	Moitra P.,Sonder I.,&Valentine G.A..(2020).The role of external water on rapid cooling and fragmentation of magma.Earth and Planetary Science Letters,537.
MLA	Moitra P.,et al."The role of external water on rapid cooling and fragmentation of magma".Earth and Planetary Science Letters 537(2020).