A Successful Field Application of Polymer Gel for Water Shutoff in a Fractured Tight Sandstone Reservoir

Wu, Qianhui; Ge, Jijiang; Ding, Lianhui; Wei, Kaipeng; Liu, Yuelong; Deng, Xuefeng

doi:10.2118/204741-ms

Cited by 4 publications

References 24 publications

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Minireview on Plugging Agents for High-Conductivity Channels in Reservoirs

Zhang,

Li,

Cai

et al. 2024

Energy Fuels

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Most mature reservoirs in China are facing severe conformance problems causing excessive water production, high water cuts, and low recovery factors due to the severe heterogeneity. Among these conformance problems, high-conductivity channels, such as large fractures and void space conduits, could cause fast communication between injection and production wells, limiting the sweep efficiency. Therefore, plugging high-conductivity channels plays a crucial role in water/gas flooding and the enhanced oil recovery process. This work systematically elucidates several commonly used plugging agents, including their basic compositions and properties. We summarized the field pilot results and came up with the current problems and several suggestions for the further development direction of plugging agents. Hopefully, this work could provide valuable guidance for plugging high-conductivity channels in mature reservoirs.

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Minireview on Plugging Agents for High-Conductivity Channels in Reservoirs

Zhang,

Li,

Cai

et al. 2024

Energy Fuels

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Experimental Study on Water-Plugging Performance of Silicon Dioxide/Polystyrene Hydrophobic Insoluble Microsphere Particle Flooded by High-Water-Cut Oil–Water Mixture

Zheng¹,

Wang

Zhang

et al. 2022

Journal of Energy Resources Technology

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Water plugging was an important but difficult process close to high-water-cut production wells. The injected water-plugging materials were usually liquid and typically had been evaluated by conventional water-flooding experiments. In this study, SiO2/polystyrene hydrophobic insoluble microsphere particles were introduced as a selective water shutoff agent, and the water saturated core was flooded with oil–water mixture. Indexes such as modified oil-coning time, water cut fluctuation, and cumulative water cut were proposed to evaluate water-plugging capability. A parametric study was conducted to evaluate the influence of particle composition (A, SiO2/polystyrene particle; B, complete polystyrene particle), water cut of the injected oil–water mixture, and preheating temperature of the insoluble particles on water-plugging performance. The results showed that the proposed indexes could be used to compare water-plugging performance during oil–water mixture drive; both particles had better water-plugging performance when the injected mixture was not an ultrahigh water cut (fw < 90%). Particle B had larger lipophilicity and stronger capacity for decreasing the water cut (about 0.55~1.28%) at a conventional temperature when the mixture of the injected fluid had a water cut of 90%. Particle A had lower capacity to decrease the water cut (by about −0.94~0.26%), but it was resistant to reservoir temperature because of its dense structure and the addition of SiO2. These results provided suggestions for the application of hydrophobic insoluble microsphere particles in water plugging in production wells.

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Field-Scale Modeling of Interwell Tracer Flow Behaviour to Characterize Complex Fracture Networks Based on the Embedded Discrete Fracture Model in a Naturally Fractured Reservoir

Liu

Jiang

Liu

et al. 2023

Day 1 Wed, March 15, 2023

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In this study, the newly proposed numerical models have been verified and used to characterize the fracture distributions in a naturally fractured reservoir conditioned to tracer transport behaviour. The stochastic fracture modeling approach is implemented to generate the randomly-distributed natural fractures which are dealt with the embedded discrete fracture model (EDFM) while ensuring its sufficient accuracy. To be specific, the matrix domain is discretized using the structured grids, within which each embedded fracture is divided into a series of segments. Subsequently, non-neighbouring connections allow us to couple the flow of fluid and tracer between the non-neighbouring grid cells, while the historical tracer profiles are matched to delineate the geometry and properties of the fractures by taking multiple tracer transport mechanisms into account. Furthermore, the influences of fracture number, fracture length, fracture orientation, and tracer dispersion on the tracer production concentration have been investigated through sensitivity analysis. The response of an interwell tracer model is sensitive to the fracture parameters rather than tracer properties. A fracture network with its orientation parallel to the mainstream direction will cause the earliest tracer breakthrough. The tracer breakthrough time with an average fracture length equal to 40 m is 110 days earlier than that with a mean fracture length value of 10 m, while the tracer production peak concentration for the former is nearly two times higher than for the latter. A larger fracture number results in an earlier tracer breakthrough and an intermediate fracture number will lead to the highest tracer production concentration. Additionally, the newly developed model has been validated through its comparison with the commercial ECLIPSE simulator and then extended to field applications to identify the possible fracture distributions by simulating multi-well tracer tests in the Midale field. The flexible and pragmatic EDFM-based method developed in this study can model the interwell tracer flow behaviour as well as characterize the properties and geometries of the natural fractures with better performance on accuracy and calculation efficiency in comparison with other fracture simulation methods (e.g., local grid refinement (LGR) method).

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A Successful Field Application of Polymer Gel for Water Shutoff in a Fractured Tight Sandstone Reservoir

Cited by 4 publications

References 24 publications

Minireview on Plugging Agents for High-Conductivity Channels in Reservoirs

Minireview on Plugging Agents for High-Conductivity Channels in Reservoirs

Experimental Study on Water-Plugging Performance of Silicon Dioxide/Polystyrene Hydrophobic Insoluble Microsphere Particle Flooded by High-Water-Cut Oil–Water Mixture

Field-Scale Modeling of Interwell Tracer Flow Behaviour to Characterize Complex Fracture Networks Based on the Embedded Discrete Fracture Model in a Naturally Fractured Reservoir

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