Yuxuan Liu scite author profile

Yuxuan Liu

4Publications

66Citation Statements Received

0Citation Statements Given

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Affiliations

State Key Laboratory of Oil and Gas Reservoir Geology and Exploitation, Southwest Petroleum University, Northeast Forestry University

Publications

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Modeling of Proppant Embedment: Elastic Deformation and Creep Deformation

Guo

Liu

2012

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Unconventional reservoir has become the hotspot of development in petroleum industry. In shale reservoir, some fracture is only propped by a monolayer 100mesh proppant. Fracture width is very small and under the condition of low rock hardness and high effective closure stress, the fracture will heal after a period of time, especially after the rock has been exposed to the fracturing fluids, causing weakening of the rock frame. In these reservoirs, proppant embedment becomes more serious. This paper purposes two embedment mechanisms, elastic deformation and creep deformation, and develops the corresponding models by combining simplified physical processes with elastic theory. Then with time integral, pressure dependent embedment depth is achieved. This paper provides a more reasonable method for calculating embedment. For fracturing engineer, it will give them a way to know how worse the matter will be. Finally, the model could couple with fracture propagation model and production prediction model to get a better result. According to the results of analysis in the paper, in shale formation, proppant will cause creep deformation of rock, which will decrease fracture width with time. Optimization of fracturing fluid and treatment procedure are required to reduce the influence of creep deformation. Poisson's Ratio do have an effect on proppant embedment but very little. The mechanisms described in the paper provide a new understanding about embedment. It provides us a tool to determine how much the degree will be.

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Analytical analysis of fracture conductivity for sparse distribution of proppant packs

et al. 2017

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Perforation spacing optimization for multi-stage hydraulic fracturing in Xujiahe formation: a tight sandstone formation in Sichuan Basin of China

Guo

Liu

et al. 2015

Environ Earth Sci

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Study on mechanism of Gemini surfactant inhibiting acid rock reaction rate

Zhao

Wang

Shen

et al. 2019

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Yuxuan Liu

Modeling of Proppant Embedment: Elastic Deformation and Creep Deformation

Analytical analysis of fracture conductivity for sparse distribution of proppant packs

Perforation spacing optimization for multi-stage hydraulic fracturing in Xujiahe formation: a tight sandstone formation in Sichuan Basin of China

Study on mechanism of Gemini surfactant inhibiting acid rock reaction rate

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