Numerical Simulation of Three-Hydrocarbon-Phase Flow with Robust Phase Identification

Xu, Zhiwu; Okuno, Ryosuke

doi:10.2118/173202-ms

Cited by 4 publications

(1 citation statement)

References 29 publications

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“…Recently, Xu and Okuno described an improvement on the method of Perschke et al If three phases are present, their method is similar but they do not use the phase densities; instead, they identify the vapor phase as the phase with the highest methane concentration. However, when two phases are present, they use a very different and interesting approach based on critical end points and tie triangles.…”

Section: Review Of Phase Identification Techniquesmentioning

confidence: 99%

Comparison of Phase Identification Methods Used in Oil Industry Flow Simulations

Bennett

Schmidt

2016

Energy Fuels

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The determination of whether a phase is a liquid or a vapor is somewhat arbitrary, particularly when the fluid is in the single-phase region. However, the calculation of multiphase flow in oil industry simulators is dependent upon the labeling of the phases. Key properties in flow modeling, such as relative permeabilities and capillary pressures, are dependent upon which phases are present. Correct labeling of the fluid phases is therefore critical to the success of simulations. Many methods have been proposed for identifying phases. These are reviewed here. Five methods have been selected for detailed comparison, including a new method, based on the thermal expansion coefficient. The results of the comparison and the relative advantages of the methods are discussed.

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Section: Review Of Phase Identification Techniquesmentioning

confidence: 99%

Comparison of Phase Identification Methods Used in Oil Industry Flow Simulations

Bennett

Schmidt

2016

Energy Fuels

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A robust and efficient algorithm for vapor-liquid-equilibrium/liquid-liquid-equilibrium (VLE/LLE) phase boundary tracking

Chen

Xu²,

Zhou³

et al. 2023

Chemical Engineering Science

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A New Way of Compositional Simulation Without Phase Labeling

Khorsandi

Johns

2018

SPE Improved Oil Recovery Conference

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Current relative permeability models rely on phase labeling, and cannot accurately capture the effect of compositional variations on relative permeabilities and capillary pressures in enhanced oil recovery (EOR) processes. Discontinuities in flux calculations not only cause serious convergence and stability, but also affects the estimated recovery factor. We developed a fully compositional simulation model using an equation of state (EoS) for relative permeabilities to eliminate the unphysical discontinuities in flux functions caused by phase labeling. In addition, we extended our relative permeability EoS to three phases. The model can capture complex hysteresis effects on three-phase relative permeability. The tuned model is used for simulation of multi-cycle WAG injection. The approach allows for a new search scheme to improve initial estimates for flash calculation. The results show increased robustness of high-resolution compositional simulation for both front calculations (recovery estimates) and convergence of flash algorithms. This paper provides a novel way forward to develop a fully compositional reservoir simulation based solely on continuous and robust equation-of-state relative permeabilities. In addition, this paper provides a detailed analysis of the effects of discontinuous phase labeling on simulation performance and accuracy for 1-D and 2-D water-alternating-gas flooding and three-hydrocarbon-phase flow. The results demonstrate the significant benefits of using an EoS for relative permeabilities.

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Numerical Simulation of Three-Hydrocarbon-Phase Flow with Robust Phase Identification

Cited by 4 publications

References 29 publications

Comparison of Phase Identification Methods Used in Oil Industry Flow Simulations

Comparison of Phase Identification Methods Used in Oil Industry Flow Simulations

A robust and efficient algorithm for vapor-liquid-equilibrium/liquid-liquid-equilibrium (VLE/LLE) phase boundary tracking

A New Way of Compositional Simulation Without Phase Labeling

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