The space-time conservation element and solution element scheme for simulating two-phase flow in pipes

Rana Danish Aslam,Asad Rehman,Ashiq Ali,Shamsul Qamar

doi:10.1177/1687814019898359

Rana Danish Aslam, Asad Rehman + Show 2 more

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https://doi.org/10.1177/1687814019898359

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Abstract

In this article, the space-time conservation element and solution element scheme is extended to simulate the unsteady compressible two-phase flow in pipes. The model is non-conservative and the governing equations consist of three equations, namely, two mass conservation equations for each phase and one mixture-momentum equation. In the third equation, the non-conservative source term appears, which describes the sum of gravitational and frictional forces. The presence of source term and two mass conservation equations in considered model offers difficulties in developing the accurate and robust numerical techniques. The suggested space-time conservation element and solution element numerical scheme resolves the volume-contact discontinuities efficiently. Furthermore, the modified central upwind scheme is also extended to solve the same two-phase flow model. The number of test problems is considered, and the results obtained by space-time conservation element and solution element scheme are compared with the solutions of modified central upwind scheme. The numerical results show better performance of the space-time conservation element and solution element method as compare to the modified central upwind scheme.

Highlights

Two-phase flows are widely observed in natural environment, such as snowy or rainy winds, typhoons, water and air pollution, and volcanic eruptions
For checking the accuracy of proposed numerical scheme, we have extended the modified central upwind scheme (CUP)[32] for solving the considered drift-flux model, and the results obtained from conservation element and solution element (CE/solution elements (SEs)) scheme are compared with those of modified CUP
The results show that conservation elements (CEs)/SE scheme is more efficient than the modified CUP

Summary

Introduction

Two-phase flows are widely observed in natural environment, such as snowy or rainy winds, typhoons, water and air pollution, and volcanic eruptions. The space-time conservation element and solution element (CE/SE) scheme[15] is extended for simulating the compressible two-phase flow in horizontal oil and gas pipelines. This scheme is entirely different from the schemes which have been applied before to solve the considered model.

We use submodel for density of liquid as rl

Conclusion