Rock strength degradation induced by salt precipitation: A new mechanical mechanism of sand production in ultra-deep fractured tight sandstone gas reservoirs

IF 0.9 Q4 GEOSCIENCES, MULTIDISCIPLINARY
Dujie Zhang, Yili Kang, Lijun You, Li Xiangchen
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Abstract

I take a typical ultra-deep tight sandstone gas reservoir located in Tarim Basin as an example to investigate the rare sand production problem. The situation of sand production was presented, and then conventional analyses were conducted. Six tight sandstone core plugs were selected to conduct rock mechanical tests before and after salt precipitation. Ultimately, a mathematical model was established to investigate the mechanism of rock strength degradation. The results of sand production prediction indicated that sand production from rock skeletons should never appear, but the rock skeletons was observed in the sand samples, and thus the impact of salt precipitation was taken into account. The experiments proved salt precipitation caused a degradation in rock strength, and the difference between actual- and predicted critical sand production pressure drop based on the weakened rock strength reduced significantly. Furthermore, the stress intensity factor on the fracture tip induced by salt precipitation reached up to 1.22 MPa·m1/2, which was greater than the fracture toughness of tight sandstone, and it was used to explain the rock strength degradation. The results are helpful to the knowledge of the sand production problem in ultra-deep fractured tight sandstone gas reservoirs.

盐沉降引起岩石强度退化:超深裂缝性致密砂岩气藏出砂新力学机制
& lt; abstract>本文以塔里木盆地某典型超深层致密砂岩气藏为例,研究其稀有出砂问题。介绍了出砂情况,并进行了常规分析。选取6个致密砂岩岩心塞,进行了盐沉淀前后的岩石力学试验。最后,建立了岩石强度退化的数学模型,探讨了岩石强度退化的机理。产砂预测结果表明,岩石骨架产砂不应出现,但在砂样中观察到岩石骨架,因此考虑了盐降水的影响。实验证明,盐降水导致岩石强度下降,岩石强度减弱后的临界出砂压降与实际值的差值显著减小。盐岩析出引起的裂隙尖端应力强度因子高达1.22 MPa·m<sup>1/2</sup>,大于致密砂岩的断裂韧性,可以用来解释岩石强度退化。研究结果有助于认识超深裂缝性致密砂岩气藏出砂问题。& lt; / abstract>
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来源期刊
AIMS Geosciences
AIMS Geosciences GEOSCIENCES, MULTIDISCIPLINARY-
自引率
7.70%
发文量
31
审稿时长
8 weeks
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