Laboratory validation of steady-state-transient test to determine relative permeability and capillary pressure
Date
2022
Authors
Hemmati, N.
Borazjani, S.
Yang, S.
Badalyan, A.
Genolet, L.
Behr, A.
Zeinijahromi, A.
Bedrikovetsky, P.
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Journal article
Citation
Fuel: the science and technology of fuel and energy, 2022; 321:1873-7153-1-1873-7153-21
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N. Hemmati, S. Borazjani, S. Yang, A. Badalyan, L. Genolet, A. Behr, A. Zeinijahromi, P. Bedrikovetsky
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Abstract
The work aims at the laboratory validation and practical implementation of the steady-state-transient method for simultaneous determination of relative permeability Kr and capillary pressure Pc, which uses steady-state data along with the transient data between the steady states. A new methodology for preliminary choice of Kr and Pc and the detailed test modelling yields planning and design of the steady-state-transient test SSTT – the definition of admissible flow rate, number of steady states and injected water fractions, frequency and volumes of the effluent samples. The test-parameter choice is based on the newly derived theoretical criteria for validity of the model for two-phase flow in porous media, and the operational criteria for the accuracy of the measurements. The preliminary modelling also allows determining the type curves for transient pressure-drop histories, which are used to approximate the measured data and input the inverse solver. Two laboratory SSTTs with inlet half-moon and concentric-circle distributors are carried out. The agreement between the matched-modelling and experimental data for pressure-drop is significantly higher than for average saturation for both tests. The agreement for the test with the concentric-circle distributor is significantly closer than that of the half-moon distributor. This is explained by non-uniform saturation distributions in core cross-sections due to 3D flow, which is more pronounced in the case of half-moon distributor.
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