A distinct element simulation including surface tension - towards the modeling of gas hydrate behavior

S. Kreiter; V. Feeser; M. Kreiter; T. Moerz; B. Grupe

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A distinct element simulation including surface tension - towards the modeling of gas hydrate behavior

机译：包括表面张力在内的独特元素模拟-面向天然气水合物行为建模

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Gas hydrate bearing sediments are an integral part of the world's continental margins. Several tsunami-genetic continental slope failure events have been triggered by gas hydrates, but their mechanical behavior is poorly understood. In this work, we propose a method to simulate a surface tensed medium such as gas hydrate in soil, using distinct element method (DEM). For implementation in sediment pore size, we scaled up attractive particle interactions governing surface tension on molecular level. Several virtual experiments are used to benchmark the proposed method. A simulation of gas hydrate growth in sediment with differing grain sizes demonstrates the potential of the new approach.

机译：含天然气水合物的沉积物是世界大陆边缘不可分割的一部分。天然气水合物引发了几次海啸成因的大陆斜坡破坏事件，但对其力学行为了解甚少。在这项工作中，我们提出了一种使用独特元素法（DEM）模拟表面张力介质（例如土壤中的天然气水合物）的方法。为了实现沉积物孔径，我们扩大了在分子水平上控制表面张力的有吸引力的颗粒相互作用。一些虚拟实验被用来作为基准。对不同粒径沉积物中气体水合物生长的模拟表明了这种新方法的潜力。

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来源
《Computational Geosciences》 |2007年第2期|p.117-129|共13页
作者
S. Kreiter; V. Feeser; M. Kreiter; T. Moerz; B. Grupe;
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作者单位

DFG - Research Center Ocean Margins, Bremen University, P.O. Box 330 440, 28334 Bremen, Germany;

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原文格式 PDF
正文语种 eng
中图分类天文学、地球科学;
关键词
distinct element method; gas hydrate growth; grain size effects; PFC; porous sediments; surface tension;

机译：独特元素法;天然气水合物生长;粒度效应;PFC;多孔沉积物;表面张力;

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机译：深海海底含甲烷水合物沉积物力学行为的简单不同要素建模
2. A finite elements model including surface contribution in micromagnetic simulation [J] . Ntallis N., Efthimiadis K. G. Finite Elements in Analysis and Design . 2016,第nova期

机译：包含微磁模拟中表面贡献的有限元模型
3. Application of cohesive crack model to simulation of rocks mechanical behavior in grain-based distinct element model [J] . Fathipour-Azar Hadi -, Jalali Seyed Mohammad Esameil, Torabi Seyed Rahman International Journal of Mining and Geo-Engineering . 2020,第1期

机译：粘性裂缝模型在谷物基不同元素模型中岩石力学行为仿真的应用
4. Investigation of excavation behavior via model experiment and distinct element method (DEM) simulation using irregularly shaped particles [C] . Shu Wakabayashi, Yasuhiro Kawamoto, Keisuke Nagato, International Conference of the International Society for Terrain Vehicle Systems . 2012

机译：使用不规则形状颗粒的模型实验和不同元素法（DEM）模拟的挖掘行为研究
5. Simulation of infiltrating rate driven by surface tension-viscosity of liquid elements from the titanium group into a packed bed [D] . Medina, Arturo 2015

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6. Cellular interfacial and surface tensions determined from aggregate compression tests using a finite element model [O] . G. Wayne Brodland, Justina Yang, Jen Sweny 2009

机译：使用有限元模型通过聚集体压缩测试确定的细胞界面和表面张力
7. The thermodynamic changes that occur upon mixing five models of formamide and three models of water, including the miscibility of these model combinations itself, is studied by performing Monte Carlo computer simulations using an appropriately chosen thermodynamic cycle and the method of thermodynamic integration. The results show that the mixing of these two components is close to the ideal mixing, as both the energy and entropy of mixing turn out to be rather close to the ideal term in the entire composition range. Concerning the energy of mixing, the OPLS/AA-mod model of formamide behaves in a qualitatively different way than the other models considered. Thus, this model results in negative, while the other ones in positive energy of mixing values in combination with all three water models considered. Experimental data supports this latter behavior. Although the Helmholtz free energy of mixing always turns out to be negative in the entire composition range, the majority of the model combinations tested either show limited miscibility, or, at least, approach the miscibility limit very closely in certain compositions. Concerning both the miscibility and the energy of mixing of these model combinations, we recommend the use of the combination of the CHARMM formamide and TIP4P water models in simulations of water-formamide mixtures. [O] . Kiss, Bálint, Fábián, Balázs, Idrissi, Abdenacer, 2017

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A distinct element simulation including surface tension - towards the modeling of gas hydrate behavior

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