Abstract
Tight gas reservoirs commonly occur in clastic formations having a complex pore structure and a high water saturation, which results in a threshold pressure gradient (TPG) for gas seepage. The micropore characteristics of a tight sandstone gas reservoir (Tuha oilfield, Xinjiang, China) were studied, based on X-ray diffraction, scanning electron microscopy and high pressure mercury testing. The TPG of gas in cores of the tight gas reservoir was investigated under various water saturation conditions, paying special attention to core permeability and water saturation impact on the TPG. A mathematical TPG model applied a multiple linear regression method to evaluate the influence of core permeability and water saturation. The results show that the tight sandstone gas reservoir has a high content of clay minerals, and especially a large proportion of illite–smectite mixed layers. The pore diameter is distributed below 1 micron, comprising mesopores and micropores. With a decrease of reservoir permeability, the number of micropores increases sharply. Saturated water tight cores show an obvious non-linear seepage characteristic, and the TPG of gas increases with a decrease of core permeability or an increase of water saturation. The TPG model has a high prediction accuracy and shows that permeability has a greater impact on TPG at high water saturation, while water saturation has a greater impact on TPG at low permeability.
Highlights
Tight gas reservoirs have been the highest potential exploration and development field of natural gas in China [1,2]
Some conclusions can be drawn from this study, and are as follows: characteristic of a tight sandstone gas reservoir, and the influence of core permeability and water saturation on the threshold pressure gradient (TPG)
Some conclusions can be drawn from this study, and are as follows: (1) The pore development in the tight gas reservoir is mainly related to clastic minerals such as quartz
Summary
Tight gas reservoirs have been the highest potential exploration and development field of natural gas in China [1,2]. The water in the pores of tight gas reservoirs forms a thin hydration film at the small pore throats, or small water droplets gather and block at the throats to produce the Jamin effect of gas seepage, which will increase the seepage resistance of gas [8,9,10] These make gas seepage show a characteristic of non-linear seepage and a threshold pressure gradient (TPG) phenomenon in water-bearing tight gas reservoirs [11,12]. Tian et al [17] investigated the different influencing factors of the TPG in water-bearing tight sandstone gas reservoirs and found that the TPG values increased exponentially with either an increase of water saturation or a decrease of core permeability. The above researches will be expected to provide reference and basis for correctly understanding the micropore structures and the TPG characteristics in water-bearing tight sandstone gas reservoirs
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