Simulation of in-situ combustion front dynamics
Numerical methods and programming, Tome 11 (2010) no. 4, pp. 306-312
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The dynamics of sharp transition layers in the reaction-diffusion-advection model is numerically studied. The mathematical model qualitatively describes the motion of an oxidizer for the thermogas method of enhanced oil recovery. The influence of permeability heterogeneity on the front shape is considered. The simulation results are compared with the numerical data obtained with the use of the CMG STARS thermohydrodynamic simulator.
Keywords:
reaction-diffusion-advection equation; asymptotic methods; in-situ combustion front.
@article{VMP_2010_11_4_a0,
author = {N. E. Grachev and A. V. Dmitriev and D. S. Senin and V. T. Volkov and N. N. Nefedov},
title = {Simulation of in-situ combustion front dynamics},
journal = {Numerical methods and programming},
pages = {306--312},
year = {2010},
volume = {11},
number = {4},
language = {ru},
url = {http://geodesic.mathdoc.fr/item/VMP_2010_11_4_a0/}
}
TY - JOUR AU - N. E. Grachev AU - A. V. Dmitriev AU - D. S. Senin AU - V. T. Volkov AU - N. N. Nefedov TI - Simulation of in-situ combustion front dynamics JO - Numerical methods and programming PY - 2010 SP - 306 EP - 312 VL - 11 IS - 4 UR - http://geodesic.mathdoc.fr/item/VMP_2010_11_4_a0/ LA - ru ID - VMP_2010_11_4_a0 ER -
N. E. Grachev; A. V. Dmitriev; D. S. Senin; V. T. Volkov; N. N. Nefedov. Simulation of in-situ combustion front dynamics. Numerical methods and programming, Tome 11 (2010) no. 4, pp. 306-312. http://geodesic.mathdoc.fr/item/VMP_2010_11_4_a0/