A New Fully Implicit Compositional Simulator

Chien, M.C.H.; Lee, S.T.; Chen, W.H.

doi:10.2118/13385-ms

Cited by 62 publications

(16 citation statements)

References 19 publications

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“…Among the models based on this approach are those reported by Fussell and Fussell (72), Coats (42), Heinemann (80), and Chien, Lee and Chen (38). This class of formulations treats the discretized flow equations and thermodynamic constraints as a set of simultaneous nonlinear algebraic equations, generally using some Newtonlike iterative scheme to advance between time steps.…”

Section: Compositional Simulationmentioning

confidence: 99%

Numerical modelling of multiphase flow in porous media

Allen

1985

Advances in Water Resources

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The simultaneous flow of immiscible fluids in porous media occurs in a wide variety of applications. The equations governing these flows are inherently nonlinear, and the geometries and material properties characterizing many problems in petroleum and groundwater engineering can be quite irregular. As a result, numerical simulation often offers the only viable approach to the mathematical modeling of multiphase flows. This paper provides an overview of the types of models that are used in this field and highlights -some of the numerical techniques that have appeared recently. The exposition includes discussions of multiphase, multispecies flows in which chemical transport and interphase mass transfers play important roles. The paper also examines some of the outstanding physical and mathematical problems in multiphase flow simulation. The scope of the paper is limited to isothermal flows in natural porous media; however, many of the special techniques and difficulties discussed also arise in artificial porous media and multiphase flows with thermal effects.

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Section: Compositional Simulationmentioning

confidence: 99%

Numerical modelling of multiphase flow in porous media

Allen

1985

Advances in Water Resources

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“…Later, Chien et al [11] proposed using the equilibrium ratios as a set of unknowns beside the pressure and the overall concentrations rather than saturations and phase compositions.…”

Section: Introductionmentioning

confidence: 99%

An implicit numerical model for multicomponent compressible two-phase flow in porous media

Zidane

Firoozabadi

2015

Advances in Water Resources

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“…General-purpose reservoir simulators in wide use employ an EOS or K-value tables to perform the phase equilibrium calculations (Coats 1980;Nghiem et al 1981;Chien et al 1985;Aziz and Wong 1988). In compositional flow simulation, given the temperature, pressure, and overall composition in a gridblock at a particular time, phase behavior computations are used to determine the phase state, and, if two or more phases are present, flash calculations are performed to determine the phase amounts and the component concentrations in each phase.…”

Section: Introductionmentioning

confidence: 99%

Compositional Space Parameterization: Multicontact Miscible Displacements and Extension to Multiple Phases

Voskov

Tchelepi

2009

SPE Journal

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We generalize the compositional space parameterization (CSP) approach, which was originally developed for immiscible twophase multicomponent problems, to multicontact miscible displacements. The tie-line based parameterization method improves both the accuracy of the phase-behavior representation as well as the efficiency of equation of state (EOS) computations in compositional flow simulation. For immiscible compositional simulation, compositional space adaptive tabulation (CSAT) can be used to avoid most of the redundant EOS calculations. Because the supercritical region cannot be parameterized using tie-lines, the original CSAT approach is not effective for modeling multicontact miscible gas injection processes. To deal with supercritical compositions, a supercritical state criteria (SSC) algorithm based on adaptive tabulation of the minimal critical pressure (MCP) tie-lines is proposed. For general-purpose simulation of miscible and immiscible compositional displacement processes, we combined the adaptive CSAT strategy in the region of tie-line extensions and the adaptive SSC scheme; we refer to the overall framework as CSAT. Results of several challenging tests of practical interest indicate that the general CSAT strategy is quite robust and that it leads to an order of magnitude gain in computational efficiency. We also describe the extension of the CSP framework for mixtures that form more than two phases. ␣ ␤ = 1 = 1

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A New Fully Implicit Compositional Simulator

Cited by 62 publications

References 19 publications

Numerical modelling of multiphase flow in porous media

Numerical modelling of multiphase flow in porous media

An implicit numerical model for multicomponent compressible two-phase flow in porous media

Compositional Space Parameterization: Multicontact Miscible Displacements and Extension to Multiple Phases

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