Theoretical Study of the Gas Slippage Effect in the Pore Space of Tight Sandstones in the Presence of a Water Phase

Autor:	Shaoyuan Mo, Zisen Wu, Pingchuan Dong, Gang Lei
Rok vydání:	2015
Předmět:	Work (thermodynamics) Klinkenberg correction Chemistry Mean free path General Chemical Engineering Energy Engineering and Power Technology General Chemistry Mechanics Tortuosity Fractal dimension Fuel Technology Fractal Phase (matter) Slippage
Zdroj:	Chemistry and Technology of Fuels and Oils. 51:268-279
ISSN:	1573-8310 0009-3092
DOI:	10.1007/s10553-015-0601-1
Popis:	Compared with the pore throat radius in tight sandstones, the mean free path of a molecule can no longer be neglected. As a result, the gas slippage effect (the Klinkenberg effect) in tight sandstones is quite significant and must be taken into account. The goal of this work was to use an analytical expression to show the effect of pore space structural parameters and temperature on the gas slippage factor, taking into account water saturation in tight sandstones. The mathematical model including water saturation was derived from fractal theory. The calculations of the gas slippage factor (the Klinkenberg constant) using the proposed model agree well with experimental data presented in the literature. We have also studied the effect of pore space structural parameters and temperature on the gas slippage factor for different water saturation values. The gas slippage factor correlates with the tortuosity fractal dimension of the pore channels for high water saturation. This distinguishes the analytical model obtained from the single-phase model neglecting the effect of water saturation.
Databáze:	OpenAIRE
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