Theoretical and numerical analyses of chemical‐dissolution front instability in fluid‐saturated porous rocks

SUMMARYThis paper deals with the theoretical aspects of nonaqueous phase liquid (NAPL)-dissolution-induced instability in two-dimensional fluid-saturated porous media including solute dispersion effects. After some weaknesses associated with the previous work are analyzed and overcome, a comprehensive dimensionless number, known as the Zhao number, is proposed to represent the main driving force and three controlling mechanisms of an NAPL-dissolution system that has a finite domain. The linear stability analysis is carried out to derive the critical value of the comprehensive dimensionless number of the NAPL-dissolution system in a limit case as the ratio of the equilibrium concentration to the density of the NAPL approaches zero. As a result, a theoretical criterion that can be used to assess the instability of planar NAPL-dissolution fronts in two-dimensional fluid-saturated porous media of finite domains has been established. Not only can the present theoretical results be used for the theoretical understanding of the effect of solute dispersion on the instability of an NAPL-dissolution front in the fluid-saturated porous medium of either a finite domain or an infinite domain, but also they can be used as benchmark solutions for verifying numerical methods employed to simulate detailed morphological evolution processes of NAPL-dissolution fronts in two-dimensional fluid-saturated porous media.

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“…Compared with the previous case when dispersion is considered as the scalar of a constant [29,36,37], two new terms, namely…”

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confidence: 95%

Theoretical analyses of nonaqueous phase liquid dissolution‐induced instability in two‐dimensional fluid‐saturated porous media

Zhao

Hobbs

Ord

2010

Num Anal Meth Geomechanics

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“…Several possiblities are open to test the precision and accuracy of the codes. Analytical solutions are the ideal tool, when available [5,15,21,13]; however, they are not easy to devise and are limited to simplified systems: specific hydrodynamic, simplistic chemistry, weak feedbacks. It is also possible to use laboratory or field experiments [6,12].…”

Section: Introductionmentioning

confidence: 99%

HYTEC results of the MoMas reactive transport benchmark

Lagneau

Lee²

2009

Comput Geosci

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A specific benchmark has been developed by the french research group MoMas in order to improve numerical solution methods applied by reactive transport models, i.e. codes which couple hydrodynamic flow and mass transport in porous media with geochemical reactions. The HYTEC model has been applied to this benchmark exercise and this paper summarizes some of the principal results. HYTEC is a general-purpose code, applied by industrials and research groups to a wide variety of domains, including soil pollution, nuclear waste storage, cement degradation, water purification systems, storage of CO 2 and valorization of stabilized wastes. The code has been applied to the benchmark test-cases without any specific modification. Apart from the benchmark imposed output, additional information is provided to highlight the behavior of HYTEC specifically and the simulation results in particular.

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“…3) and a number of semi-empirical equations that bridge the scale differences, as described earlier (Eqs. [4][5][6] [30]. They can be listed as follows:…”

Section: Two-scale Model For Carbonate Dissolutionmentioning

confidence: 99%

“…Engineers and hydrologists appeal to this technique when the efficiency of oil production wells deteriorates due to the deposition of mud and fines at the perforated well pore pipe. In geo-environmental engineering [13][14][15][16][17] and petroleum engineering [1][2][3], Zhao and his co-workers have conducted extensive and systematic theoretical studies in recent years [1][2][3][4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19]. In particular, many important factors such as the mineral reactive surface area [6], mineral dissolution ratio [8], solute dispersion [9], medium anisotropy [12], temperature effect [18,19], and medium and fluid compressibility [10] have been successfully considered in both theoretical analyses and computational simulations.…”

Section: Introductionmentioning

confidence: 99%

“…In this framework, field variables represent continuous functions of space and time, and the governing conservation equations are described in the form of differential equations [34][35][36]. Zhao et al [3][4][5] used a combination of the finite element method and the finite difference method to simulate wormhole generation and propagation in carbonate rocks. However, compared with Zhao's methods, our proposed finite difference method is more easily parallelized.…”

Section: Introductionmentioning

confidence: 99%

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Parallel simulation of wormhole propagation with the Darcy–Brinkman–Forchheimer framework

Salama

Sun

2015

Computers and Geotechnics

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The acid treatment of carbonate reservoirs is a widely practiced oil and gas well stimulation technique. The injected acid dissolves the material near the wellbore and creates flow channels that establish a good connectivity between the reservoir and the well. Such flow channels are called wormholes. Different from the traditional simulation technology relying on Darcy framework, the new Darcy-Brinkman-Forchheimer (DBF) framework is introduced to simulate the wormhole forming procedure. The DBF framework considers both large and small porosity conditions and should output better simulation results than the Darcy framework. To process the huge quantity of cells in the simulation grid and shorten the long simulation time of the traditional serial code, a parallel code with FORTRAN 90 and MPI was developed. The experimenting field approach to set coefficients in the model equations was also introduced. Moreover, a procedure to fill in the coefficient matrix in the linear system in the solver was described.After this, 2D dissolution experiments were carried out. In the experiments, different configurations of wormholes and a series of properties simulated by both frameworks were compared. We conclude that the numerical results of the DBF framework are more like wormholes and more stable than the Darcy framework, which is a demonstration of the advantages of the DBF framework. Finally, the scalability of the parallel code was evaluated, and we conclude that superlinear scalability can be achieved.

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Theoretical and numerical analyses of chemical‐dissolution front instability in fluid‐saturated porous rocks

Cited by 174 publications

References 30 publications

Theoretical analyses of nonaqueous phase liquid dissolution‐induced instability in two‐dimensional fluid‐saturated porous media

Theoretical analyses of nonaqueous phase liquid dissolution‐induced instability in two‐dimensional fluid‐saturated porous media

HYTEC results of the MoMas reactive transport benchmark

Parallel simulation of wormhole propagation with the Darcy–Brinkman–Forchheimer framework

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