Results 151 to 160 of about 7,879 (182)
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Parallel computation for reservoir thermal simulation of multicomponent and multiphase fluid flow
Journal of Computational Physics, 2004zbMATH Open Web Interface contents unavailable due to conflicting licenses.
Ma, Yuanle, Chen, Zhangxin
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Multiphase and Multicomponent Flows
2016After reading this chapter, you will be able to expand lattice Boltzmann simulations by including non-ideal fluids, using either the free-energy or the Shan-Chen pseudopotential method. This will allow you to simulate fluids consisting of multiple phases (e.g. liquid water and water vapour) and multiple components (e.g. oil and water).
Timm Krüger +5 more
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Separation and Purification Technology, 2021
Abstract Pore-scale CFD simulations of liquid aerosol filtration in coalescing fibrous filters are currently limited by severe computational constraints. In this paper, we present a new multiphase multicomponent framework for modeling such dynamic filtration process at the Darcy-scale.
Starnoni M., Manes C.
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Abstract Pore-scale CFD simulations of liquid aerosol filtration in coalescing fibrous filters are currently limited by severe computational constraints. In this paper, we present a new multiphase multicomponent framework for modeling such dynamic filtration process at the Darcy-scale.
Starnoni M., Manes C.
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International Journal of Multiphase Flow, 2020 Abstract In this paper a generalized conservative phase field-lattice Boltzmann model is proposed for immiscible incompressible flows with any number of components. In this phase field model, the each phase field variable satisfies a generalized eikonal equation and the volume fraction constraint.
Yang Hu, Decai Li, Qiang He
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Upscaling of Transport Equations for Multiphase and Multicomponent Flows
2008In this paper we discuss upscaling of immiscible multiphase and miscible multicomponent flow and transport in heterogeneous porous media. The discussion presented in the paper summarizes the results of in Upscaled Modeling in Multiphase Flow Applications by Ginting et al.
Richard Ewing +3 more
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Proceedings, 2016
Development of new highly efficient oil production technologies require a deep analysis of complex mechanisms in real reservoir processes. To improve existing methods of enhanced oil recovery (EOR), including chemical, microbial (MEOR) and thermal methods, it is necessary to study the processes that are accompanied by phase state change of reservoir ...
T.S. Imankulov, D. Akhmed-Zaki
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Development of new highly efficient oil production technologies require a deep analysis of complex mechanisms in real reservoir processes. To improve existing methods of enhanced oil recovery (EOR), including chemical, microbial (MEOR) and thermal methods, it is necessary to study the processes that are accompanied by phase state change of reservoir ...
T.S. Imankulov, D. Akhmed-Zaki
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Advances in Water Resources, 2002 An efficient parallel-computing method for modeling nonisothermal multiphase flow and multicomponent transport in porous and fractured ...
Yu‐Shu Wu +5 more
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Concurrency and Computation: Practice and Experience, 2010
AbstractThe lattice‐Boltzmann method is well suited for implementation in single‐instruction multiple‐data (SIMD) environments provided by general purpose graphics processing units (GPGPUs). This paper discusses the integration of these GPGPU programs with OpenMP to create lattice‐Boltzmann applications for multi‐GPU clusters.
J. Myre +3 more
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AbstractThe lattice‐Boltzmann method is well suited for implementation in single‐instruction multiple‐data (SIMD) environments provided by general purpose graphics processing units (GPGPUs). This paper discusses the integration of these GPGPU programs with OpenMP to create lattice‐Boltzmann applications for multi‐GPU clusters.
J. Myre +3 more
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SIAM Journal on Scientific Computing, 2013
We derive a Eulerian--Lagrangian formulation for multicomponent multiphase compositional flow and transport in porous media, by utilizing momentum balance to define a barycentric component velocity...
Hong Wang +3 more
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We derive a Eulerian--Lagrangian formulation for multicomponent multiphase compositional flow and transport in porous media, by utilizing momentum balance to define a barycentric component velocity...
Hong Wang +3 more
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