Analytical Method for Determining the Characteristics of an Aquifer Based on Analysis Parameters of the Gushing Well

International Journal of Applied Physics

© 2020 by SSRG - IJAP Journal

Volume 7 Issue 3

Year of Publication : 2020

Authors : Konstantin Ludanov

10.14445/23500301/IJAP-V7I3P115

How to Cite?

Konstantin Ludanov, "Analytical Method for Determining the Characteristics of an Aquifer Based on Analysis Parameters of the Gushing Well," SSRG International Journal of Applied Physics, vol. 7,  no. 3, pp. 97-101, 2020. Crossref, https://doi.org/10.14445/23500301/IJAP-V7I3P115

Abstract:

The article developed a new method for determining the parameters of an underground aquifer based on the characteristics of a single gushing well based on the use of a solution with three-dimensional filtration to assess the value of the hydraulic resistance of the near-wellbore formation zone, that is, an alternative to the Dupuis formula obtained for flat filtration. In addition, new analytical expressions are obtained in work: the dependence of the density of geothermal water on the depth in the well ρ(h), the dependence of the volumetric compressibility coefficient B(h), and the dependence of the reservoir pressure of water in the well on its depth.

Keywords:

gushing well, porous skeleton, aquifer, volumetric compressibility coefficient of the water, hydraulic permeability, Dupuis equation, skin-factor.

References:

[1] Ponomareva I.N., Mordvinov V.A. Underground hydromechanics. Tutorial. - Perm, Perm state. Tech. Un-t, 2009. − 103.
[2] Ikonnikova L.N., Zolotukhin A.B. Estimation of the bottom-hole pressure of a gushing well at its value below the bubble point pressure // Bulletin of PNRPU Geology. Oil and Mining. 2, (2012) 61-68.
[3] Khisamov R.S., Suleimanov E.I., Farkhullin R.G., and others. Hydrodynamic studies of wells and methods of processing measurement results. - M.: JSC VNIIOENG, 1999. – 227.
[4] Theis C.V. Trans. Amer. Geophys. Union / 35(6). 1954.
[5] Veliev M.N. A new solution to the problem of fluid flow to a well that is imperfect in terms of the degree of reservoir penetration // Journal of Oil and Gas Business, (2009), 1-10
[6] Mufazalov R.Sh. SKIN − FACTOR. Historical mistakes and misconceptions made in the theory of oil reservoir hydrodynamics // Journal GEORESURS, 5 (55) (2013) 34-48.
[7] Pekhovich A.I., Zhidkikh V.M. Calculations of the thermal regime of solids. Ed. 2nd.- L.: Energy. 1976. − 352.
[8] Shetsle V., Brett S., Grubbs D., Sepponen M. Thermal energy storage in aquifers. Device and practical application. Per. from English - M .: Energoatomizdat, 1984 .− 208.
[9] Milne-Thomson L.M., Comrie L.J. Four-digit math tables. Ed. 2nd. Moscow: Nauka, 1964, 248.
[10] Ludanov K.I. The Method of Joint Determination of the Hidraulic Permeability of a Porous Structure and Its Capillary Radius // Scientific Journal «ScienceRise» 12 (53) (2018)36-40.
[11] Ra.Jaikishan, M.Adiyaman, Study of Waterproofing System in Construction Industry SSRG International Journal of Civil Engineering 5(2) (2018) 1-3.