Research on Refracturing Technology of Horizontal Wells Based on Dynamic Drainage Volume

Dong, Qi; Li, Jianshan; Yang, Linlin; Wang, Fei; Zhao, Kun; Huo, Fei

doi:10.3389/fenrg.2022.864527

Front. Energy Res.

2022

DOI: 10.3389/fenrg.2022.864527

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Research on Refracturing Technology of Horizontal Wells Based on Dynamic Drainage Volume

Qi Dong

Jianshan Li

Linlin Yang

et al.

Abstract: Refracturing is an important method to improve the productivity of low-yield and low-efficiency horizontal wells. Due to the influence of geological factors and primary fracturing, it is of great importance to select suitable candidate wells and determine reasonable refracturing timing. Considering that production and pressure are the first-hand data available in the fields, they can be used to evaluate the dynamic drainage volume of fractured horizontal wells and to predict refracturing timing combined with f… Show more

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2024

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References 26 publications

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Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact

Xu,

Wang,

et al. 2024

Energy Fuels

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The technique of refracturing horizontal wells with carbon dioxide (CO2) is viewed as a propitious alternative in advancing the extraction of unconventional oil and gas reserves and older well reserves. When the reservoir rock is refractured by CO2, the physical properties of the reservoir rock have changed greatly. Therefore, when the pulsed abrasive supercritical CO2 jet is used to perforate the rock again, the erosion behavior of the jet will also be influenced by these changes in the rock properties. In order to better match the perforation process parameters, sandstone was used as the target material in an experimental study on the erosion behavior of sandstone treated by CO2 soaking under PASJ impact. The pit’s erosion area and macroscopic erosion depth were both thoroughly discussed. By optical profilometry and scanning electron microscopy (SEM), the micromorphology of the erosion pits’ surfaces was meticulously investigated. The failure mode and damage mechanism of the sandstone impacted by PASJ were disclosed. It was discovered that the erosive capacity of PASJ for soaked rock samples was greater than that of the untreated rock samples under the same nozzle pressure differential. With the increase in soaking pressure and soaking temperature, the resistance of sandstone to abrasive jet erosion diminishes and the size of the erosion pit enlarges. As the nozzle pressure rises, the erosion pit becomes larger and loses its distinct cone shape, which is mainly attributed to an increase in the kinetic energy of the jet impact. The optical profile instrument and SEM inspections indicate that the complexity of the micropore structure and porosity increase on the surface of the soaked sandstone. The mineral solutes inside the sandstone soaked by carbon dioxide are extracted, and the coarse aggregate is exposed, which offers convenience for subsequent direct crushing by the abrasive particles.

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Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact

Xu,

Wang,

et al. 2024

Energy Fuels

View full text Add to dashboard Cite

show abstract

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Research on Refracturing Technology of Horizontal Wells Based on Dynamic Drainage Volume

Cited by 1 publication

References 26 publications

Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact

Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact

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Research on Refracturing Technology of Horizontal Wells Based on Dynamic Drainage Volume

Cited by 1 publication

References 26 publications

Erosion Behavior of Sandstone Treated by CO2 Soaking under Pulsed Abrasive Supercritical CO2 Jet Impact

Erosion Behavior of Sandstone Treated by CO2 Soaking under Pulsed Abrasive Supercritical CO2 Jet Impact

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Product

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About

Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact

Erosion Behavior of Sandstone Treated by CO₂ Soaking under Pulsed Abrasive Supercritical CO₂ Jet Impact