Mathematic modelling of thermodynamic effects in a gas formation well bore zone

Authors

  • A. YA. Bomba Rivne State Humanitarian University;
  • M. A. Myslyuk
  • S. V. Yaroshchak

Keywords:

Joule-Thomson effect, iteration method, non-linear filtration, sedimentary shale rock

Abstract

Abstract

With the use of ideas of stepwise recording of process and medium characteristics, the methodology of mathematical modelling of filtration and mass-exchanging processes in a formation wellbore zone has been suggested. The methodology considers thermodynamic effects which appear as a result of gas throttling through micro fractures of shale rock when, on condition of quasistationary filtration flow, displacement process is described by specially modified Darcy's law with critical gradient.

Model problem of hydrodynamic effects investigation in a formation wellbore zone in case of gas filtration in a formation with low permeability has been formulated. On the example of radial gas flow the peculiarities of temperature field division algorithm building have been illustrated.

Downloads

Download data is not yet available.

Author Biography

A. YA. Bomba, Rivne State Humanitarian University;

Rivne State Humanitarian University; 12, S. Bandery Str., Rivne, 33028, Ukraine

References

[1] Bomba, AYa, Kashtan, SS, Progornyckyy, DO &
Yaroshchak, SV 2013, Complex analysis method: Monograph,
National University of Water Management and Nature
Resources Use, Rivne.
[2] Bomba, AYa, Sinchuk, AM & Yaroshchak, SV
2011, ‘Method of quasiconformal reflections of mathematical
modelling of nonlinear displacement processes on condition of
formation hydraulic fracturing’, Exploration and Development
of Oil and Gas Fields, no. 3 (40), pp. 32–36.
[3] Bomba, AYa & Yaroshchak, SV 2010, ‘Method of
quasiconformal reflections of mathematical modelling of
nonlinear displacement processes in media, being deformed’,
Kyiv University Bulletin. Series: physical and mathematical
sciences, issue 2, pp. 91–96.
[4] Bomba, AYa & Yaroshchak, SV 2012, ‘Complex
approach to modelling of two-phase filtration processes under
control conditions’, Journal of Mathematical Sciences, vol.
184, no. 1, pp. 56-69.
[5] Zhangxin, C, Guanren, H & Yuanle, M 2006,
Computational Methods for Multiphase Flows in Porous
Media (Computational Science and Engineering), Society for
Industrial and Applied Mathematic, Siam.
[6] Bomba, AYa, Bulavatskyy, VM & Skopetskyy, VV
2007, Nonlinear mathematical models of geodynamic
processes, Naukova Dumka, Кyiv.
[7] Cekalyuk, EB 1965, Oil formation thermodynamics,
Nedra, Moscow.
[8] Basniyev, KS, Kochyna, NI & Maksymov, MV
1993, Subsurface hydromechanics, Nedra, Moscow.
[9] Bomba, АYa, Hlapuk, ММ & Sydorchuk, BP 1997,
‘Mathematical modelling of nonlinear mass-exchanging
processes, accounting for small medium deformations’ in
Contemporary problems of water industry. Book.1, Ukrainian
State Academy of Water Management, Rivne, pp. 11–15.

Downloads

Published

2014-12-04

How to Cite

Bomba, A. Y., Myslyuk, M. A., & Yaroshchak, S. V. (2014). Mathematic modelling of thermodynamic effects in a gas formation well bore zone. JOURNAL OF HYDROCARBON POWER ENGINEERING, 1(1), 1–4. Retrieved from https://ogpe.nung.edu.ua/index.php/jhpe/article/view/1

Issue

Vol. 1 No. 1 (2014): JOURNAL OF HYDROCARBON POWER ENGINEERING

Section

OIL AND GAS EXPLORATION AND PRODUCTION

License

Copyright Notice