Dissipative Particle Dynamics and other particle methods for multiphase fluid flow in fractured and porous media

Paul Meakin; Zhijie Xu

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Dissipative Particle Dynamics and other particle methods for multiphase fluid flow in fractured and porous media

机译：压裂和多孔介质中多相流体流动的耗散粒子动力学和其他粒子方法

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Particle methods are less computationally efficient than grid based numerical solution of the Navier Stokes equation. However, they have important advantages including rigorous mass conservation, momentum conservation and isotropy. In addition, there is no need for explicit interface tracking/capturing and code development effort is relatively low. We describe applications of three particle methods: molecular dynamics, dissipative particle dynamics and smoothed particle hydrodynamics. The mesoscale (between the molecular and continuum scales) dissipative particle dynamics method can be used to simulate systems that arc too large to simulate using molecular dynamics but small enough for thermal fluctuations to play an important role.

机译：粒子方法的计算效率不如Navier Stokes方程的基于网格的数值解决方案。但是，它们具有重要的优势，包括严格的质量守恒，动量守恒和各向同性。另外，不需要显式的接口跟踪/捕获，并且代码开发工作相对较少。我们描述了三种粒子方法的应用：分子动力学，耗散粒子动力学和平滑粒子流体动力学。中尺度（介于分子尺度和连续尺度之间）的耗散粒子动力学方法可用于模拟系统，该系统太大而无法使用分子动力学进行模拟，但是对于热波动起很小的作用。

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来源
《Progress in computational fluid dynamics》 |2009年第7期|399-408|共10页
作者
Paul Meakin; Zhijie Xu;
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作者单位

Idaho National Laboratory, Center for Advanced Modeling and Simulation, P.O.Box 1625, Idaho Falls, Idaho 83415-2211, USA Institute for Energy Technology, Multiphase Flow Assurance Innovation Center, NO-2027, Kjeller, Norway Physics of Geological Processes, University of Oslo, No-0316, Oslo, Norway;

Idaho National Laboratory, Center for Advanced Modeling and Simulation, P.O.Box 1625, Idaho Falls, Idaho 83415-2211, USA;

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正文语种 eng
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CFD; particle methods; DPD; dissipative particle dynamics; SPH; smoothed particle hydrodynamics; MD; molecular dynamics; BD; Brownian dynamics;

机译：差价合约粒子法DPD;耗散粒子动力学;SPH;平滑的粒子流体动力学;MD;分子动力学BD;布朗动力学;

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1. Smoothed particle hydrodynamics (SPH) and its applications in geomechanics: From solid fracture to granular behaviour and multiphase flows in porous media [J] . Bui Ha H., Nguyen Giang D. Computers and Geotechnics . 2021,第Octa期

机译：平滑的粒子流体动力学（SPH）及其在地质力学中的应用：从多孔介质中的固体骨折与粒状行为和多相流量
2. Dissipative particle dynamics simulation of pore-scale multiphase fluid flow [J] . Moubin Liu, Paul Meakin, Hai Huang Water resources research . 2007,第4期

机译：孔尺度多相流体流动的耗散粒子动力学模拟
3. Dissipative particle dynamics simulation of multiphase fluid flow in microchannels and microchannel networks [J] . Liu MB, Meakin P, Huang H Physics of fluids . 2007,第3期

机译：微通道和微通道网络中多相流体流动的耗散粒子动力学模拟
4. Simulation of Fluid Flow through Porous Media Using Smoothed Particle Hydrodynamics Method [C] . Wei Chen, Tong Qiu Advances in geotechnical engineering . 2011

机译：平滑粒子流体动力学方法模拟流体在多孔介质中的流动
5. A Dissipative Particle Dynamics (DPD) Modelling of Yield Stress Fluids and Their Flow Processes [D] . Lei, Lijie. 2018

机译：耗散粒子动力学（DPD）屈服应力流体及其流程造型
6. A mesoscopic bridging scale method for fluids and coupling dissipative particle dynamics with continuum finite element method [O] . Milos Kojic, Nenad Filipovic, Akira Tsuda -1

机译：介观的流体桥接尺度方法和耗散颗粒动力学与连续有限元方法的耦合
7. DISSIPATIVE PARTICLE DYNAMICS AND OTHER PARTICLE METHODS FOR MULTIPHASE FLUID FLOW IN FRACTURED AND POROUS MEDIA [O] . Paul Meakin, Zhijie Xu 2008

机译：裂隙和多孔介质中多相流体流动的耗散粒子动力学和其他粒子方法
8. Dissipative Particle Dynamics and Other Particle Methods for Multiphase Fluid Flow in Fractured and Porous Media [R] . Meakin, P., Xu, Z. 2008

机译：破碎多孔介质中多相流体流动的耗散粒子动力学和其他粒子方法

Dissipative Particle Dynamics and other particle methods for multiphase fluid flow in fractured and porous media

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