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首页> 外文期刊>Journal of geophysical research. Solid earth: JGR >A Physical Model for Three‐Phase Compaction in Silicic Magma Reservoirs
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A Physical Model for Three‐Phase Compaction in Silicic Magma Reservoirs

机译:三相压实在硅质岩浆储层中的物理模型

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Abstract > We develop a model for phase separation in magma reservoirs containing a mixture of silicate melt, crystals, and fluids (exsolved volatiles). The interplay between the three phases controls the dynamics of phase separation and consequently the chemical and physical evolution of magma reservoirs. The model we propose is based on the two‐phase damage theory approach of Bercovici et al. (2001, <url href="https://doi.org/10.1029/2000JB900430">https://doi.org/10.1029/2000JB900430</url> ) and Bercovici and Ricard (2003, <url href="https://doi.org/10.1046/j.1365-246X.2003.01854.x">https://doi.org/10.1046/j.1365-246X.2003.01854.x</url> ) because it offers the leverage of considering interface (in the macroscopic limit) between phases that can deform depending on the mechanical work and phase changes taking place locally in the magma. Damage models also offer the advantage that pressure is defined uniquely to each phase and does not need to be equal among phases, which will enable us to consider, in future studies, the large capillary pressure at which fluids are mobilized in mature, crystal‐rich, magma bodies. In this first analysis of three‐phase compaction, we solve the three‐phase compaction equations numerically for a simple 1‐D problem where we focus on the effect of fluids on the efficiency of melt‐crystal separation considering the competition between viscous and buoyancy stresses only. We contrast three sets of simulations to explore the behavior of three‐phase compaction, a melt‐crystal reference compaction scenario (two‐phase compaction), a three‐phase scenario without phase changes, and finally a three‐phase scenario with a parameterized second boiling (crystallization‐induced exsolution). The simulations show a dramatic difference between two‐phase (melt crystals) and three‐phase (melt? </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> <div class="translation abstracttxt"> <span class="zhankaihshouqi fivelineshidden" id="abstract"> <span>机译:</span><Abstract Type =“Main”XML:Lang =“en”XML:ID =“JGRB52615-Abs-Abs-0001”> <标题类型=“main”>抽象</ title> >我们开发一个阶段分离模型岩浆储存器含有硅酸盐熔体,晶体和流体的混合物(exsolved挥发物)。三相之间的相互作用控制了相分离的动态,从而控制了岩浆储层的化学和物理演化。我们提出的模型基于Bercovici等人的两相损伤理论方法。 (2001,<url href =“https://do.org/10.1029/2000jb900430”> https://doi.org/10.1029/2000jb900430 </ url>)和bercovici和ricard(2003,<url href =“https ://doi.org/10.1046/j.1365-246x.2003.01854.x“> https://doi.org/10.1046/j.1365-246x.2003.01854.x </ url>)因为它提供了杠杆考虑在可以变形的相位之间的界面(在宏观极限中),这取决于机械工作和在岩浆中局部发生的相变。损坏模型还提供了对每个阶段独一无二的压力的优点,并且在阶段之间不需要等等,这将使我们能够在未来的研究中考虑流体在成熟,富含水晶的大毛细管压力,岩浆机构。在第一次分析三相压实中,我们在数控上解决三相压缩方程,以便在考虑粘性和浮力应力之间的竞争中,专注于流体对熔融晶体分离效率的影响只要。我们对比三组模拟来探索三相压缩的行为,熔融晶体参考压缩方案(两相压缩),一个没有相位变化的三相场景,最后一个具有参数化的三相场景沸腾(结晶诱导的exsolution)。模拟显示两相(熔体晶体)和三相(熔体?)之间的剧烈差异 </span> <span class="z_kbtn z_kbtnclass hoverxs" style="display: none;">展开▼</span> </div> </div> <div class="record"> <h2 class="all_title" id="enpatent33" >著录项</h2> <ul> <li> <span class="lefttit">来源</span> <div style="width: 86%;vertical-align: text-top;display: inline-block;"> <a href='/journal-foreign-34677/'>《Journal of geophysical research. Solid earth: JGR》</a> <b style="margin: 0 2px;">|</b><span>2018年第4期</span><b style="margin: 0 2px;">|</b><span>共21页</span> </div> </li> <li> <div class="author"> <span class="lefttit">作者</span> <p id="fAuthorthree" class="threelineshidden zhankaihshouqi"> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Huber Christian&option=202" target="_blank" rel="nofollow">Huber Christian;</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Parmigiani Andrea&option=202" target="_blank" rel="nofollow">Parmigiani Andrea;</a> </p> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zkzz" style="display: none;">展开▼</span> </div> </li> <li> <div style="display: flex;"> <span class="lefttit">作者单位</span> <div style="position: relative;margin-left: 3px;max-width: 639px;"> <div class="threelineshidden zhankaihshouqi" id="fOrgthree"> <p>Department of Earth Environmental and Planetary SciencesBrown UniversityProvidence RI USA;</p> <p>Department of Earth SciencesETH ZurichZurich Switzerland;</p> </div> <span class="z_kbtnclass z_kbtnclassall hoverxs" id="zhdw" style="display: none;">展开▼</span> </div> </div> </li> <li > <span class="lefttit">收录信息</span> <span style="width: 86%;vertical-align: text-top;display: inline-block;"></span> </li> <li> <span class="lefttit">原文格式</span> <span>PDF</span> </li> <li> <span class="lefttit">正文语种</span> <span>eng</span> </li> <li> <span class="lefttit">中图分类</span> <span><a href="https://www.zhangqiaokeyan.com/clc/163.html" title="地球物理学">地球物理学;</a></span> </li> <li class="antistop"> <span class="lefttit">关键词</span> <p style="width: 86%;vertical-align: text-top;"> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=magma reservoir&option=203" rel="nofollow">magma reservoir;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=phase separation&option=203" rel="nofollow">phase separation;</a> <a style="color: #3E7FEB;" href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=three‐phase compaction&option=203" rel="nofollow">three‐phase compaction;</a> </p> <div class="translation"> 机译:岩浆水库;相分离;三相压实; </div> </li> </ul> </div> </div> <div class="literature cardcommon"> <div class="similarity "> <h3 class="all_title" id="enpatent66">相似文献</h3> <div class="similaritytab clearfix"> <ul> <li class="active" >外文文献</li> <li >中文文献</li> <li >专利</li> </ul> </div> <div class="similarity_details"> <ul > <li> <div> <b>1. </b><a class="enjiyixqcontent" href="/journal-foreign-detail/0704025592596.html">A Physical Model for Three‐Phase Compaction in Silicic Magma Reservoirs</a> <b>[J]</b> . <span> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Huber Christian&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor">Huber Christian,</a> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=Parmigiani Andrea&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor">Parmigiani Andrea </a> <a href="/journal-foreign-34677/" target="_blank" rel="nofollow" class="tuijian_authcolor">Journal of geophysical research. 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</span> </div> </li> <li> <div> <b>7. </b><a class="enjiyixqcontent" href="/academic-degree-domestic_mphd_thesis/020314316583.html">论虚拟实在——虚拟实在中的实在论问题探讨</a> <b>[A] </b> <span> <a href="/search.html?doctypes=4_5_6_1-0_4-0_1_2_3_7_9&sertext=谢伟&option=202" target="_blank" rel="nofollow" class="tuijian_auth tuijian_authcolor"> . 谢伟</a> <span> . 2007</span> </span> </div> </li> </ul> <ul style="display: none;"> <li> <div> <b>1. </b><a class="enjiyixqcontent" href="/patent-detail/061204187339.html">相变砂岩储层物理模型材料和相变砂岩储层物理模型及制备方法</a> <b>[P]</b> . <span> 中国专利: CN109206092B </span> <span> . 2021.01.05</span> </div> </li> <li> <div> <b>2. </b><a class="enjiyixqcontent" href="/patent-detail/06120100180415.html">相变砂岩储层物理模型材料和相变砂岩储层物理模型及制备方法</a> <b>[P]</b> . <span> 中国专利: CN109206092A </span> <span> . 2019-01-15</span> </div> </li> <li> <div> <b>3. </b><a class="enjiyixqcontent" href="/patent-detail/06130407304943.html">Pseudo phase production simulation: a signal processing approach to assess quasi-multiphase flow production via successive analogous step-function relative permeability controlled models in reservoir flow simulation in order to rank multiple petro-physical realizations</a> <b>[P]</b> . <span> 外国专利: <!-- 美国专利: --> US10060228B2 </span> <span> . 2018-08-28</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:伪相生产模拟:一种信号处理方法,通过在储层流体模拟中通过连续类似的阶跃函数相对渗透率控制模型评估准多相流生产,以对多个石油物理实现进行排序 </span> </p> </li> <li> <div> <b>4. </b><a class="enjiyixqcontent" href="/patent-detail/06130409044273.html">Pseudo phase production simulation: a signal processing approach to assess quasi-multiphase flow production via successive analogous step-function relative permeability controlled models in reservoir flow simulation in order to rank multiple petro-physical realizations</a> <b>[P]</b> . <span> 外国专利: <!-- --> AU2013400128B2 </span> <span> . 2017-07-27</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:伪相生产模拟:一种信号处理方法,通过在储层流体模拟中通过连续类似的阶跃函数相对渗透率控制模型评估准多相流生产,以对多个石油物理实现进行排序 </span> </p> </li> <li> <div> <b>5. </b><a class="enjiyixqcontent" href="/patent-detail/06130411828683.html">Pseudo phase production simulation: a signal processing approach to assess quasi-multiphase flow production via successive analogous step-function relative permeability controlled models in reservoir flow simulation in order to rank multiple petro-physical realizations</a> <b>[P]</b> . <span> 外国专利: <!-- --> AU2013400128A1 </span> <span> . 2016-03-10</span> </div> <p class="zwjiyix translation" style="max-width: initial;height: auto;word-break: break-all;white-space: initial;text-overflow: initial;overflow: initial;"> <span>机译:伪相生产模拟:一种信号处理方法,通过在储层流体模拟中通过连续类似的阶跃函数相对渗透率控制模型评估准多相流生产,以对多个石油物理实现进行排序 </span> </p> </li> </ul> </div> </div> </div> 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