DETERMINING THE FLUID TRANSPORT PROPERTIES OF A FRACTURED POROUS RESERVOIR BY SOLVING THE INVERSE PROBLEM USING WELL OUTPUT MEASUREMENTS

A dual-porosity continuum model describing mass transfer in fractured porous reservoirs is used to develop and algorithmically implement a method for the quantitative estimation of the matrix and fracture permeabilities by solving the inverse coefficient problem whose input data are well output meas...

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Veröffentlicht in:	Journal of applied mechanics and technical physics 2021-11, Vol.62 (6), p.952-958
Hauptverfasser:	Karchevsky, A. L., Nazarova, L. A., Nazarov, L. A.
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Applications of Mathematics Classical and Continuum Physics Classical Mechanics Continuum modeling Exact solutions Fluid- and Aerodynamics Inverse problems Mass transfer Mathematical Modeling and Industrial Mathematics Mechanical Engineering Physics Physics and Astronomy Reservoirs Transport properties
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container_end_page	958
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container_title	Journal of applied mechanics and technical physics
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creator	Karchevsky, A. L. Nazarova, L. A. Nazarov, L. A.
description	A dual-porosity continuum model describing mass transfer in fractured porous reservoirs is used to develop and algorithmically implement a method for the quantitative estimation of the matrix and fracture permeabilities by solving the inverse coefficient problem whose input data are well output measurements in the stop–start operation mode. The algorithm is based on the obtained analytical solution of the direct problem of the evolution of hydrodynamic fields in the near-wellbore zone. The results of numerical experiments show that the inverse problem has a unique solution with a moderate level of noise in the input data.
doi_str_mv	10.1134/S0021894421060092
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subjects	Algorithms Applications of Mathematics Classical and Continuum Physics Classical Mechanics Continuum modeling Exact solutions Fluid- and Aerodynamics Inverse problems Mass transfer Mathematical Modeling and Industrial Mathematics Mechanical Engineering Physics Physics and Astronomy Reservoirs Transport properties
title	DETERMINING THE FLUID TRANSPORT PROPERTIES OF A FRACTURED POROUS RESERVOIR BY SOLVING THE INVERSE PROBLEM USING WELL OUTPUT MEASUREMENTS
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