An Alternative Method for Cement Squeeze in North Kuwait: Case Study

Al-Houti, Naser; Al-Othman, Mohammad; Al-Qassar, Khalid; Al-Ebrahim, Ahmed; Matar, Khaled; Hamad, Abdulla Al

doi:10.2118/184802-ms

Cited by 9 publications

References 13 publications

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Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent

Zhao,

He,

Duan

et al. 2023

Open Chemistry

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With the rapid growth of natural gas consumption capacity, the important role of gas storage in seasonal peak shaving and emergency response is gradually emerging. Long-term forced production and injection of gas storage will lead to problems such as wellhead equipment leakage and string seal failure. Replacing the string is not only costly but also takes a long time. Aiming at thread leakage caused by multiple rounds of forced production and injection in gas storage, a Pickering emulsion differential pressure plugging agent with a self-sealing function under a certain pressure difference was developed. We selected carboxyl nitrile latex with a self-polymerization function and modified the nano-stabilizer Fe3O4@SiO2. The Pickering differential pressure plugging agent with excellent plugging performance was prepared by the combination of modified particles and non-ionic emulsifier OP-10. The plugging test was carried out for the simulated oil pipe thread. When the leakage rate was 50 mL/min, no leakage occurred under a pressure of 20 MPa after plugging. The differential pressure plugging agent is expected to achieve plugging without moving the pipe string and rebuild the integrity of the wellbore.

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Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent

Zhao,

He,

Duan

et al. 2023

Open Chemistry

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Rigless Zonal Isolation in High-Permeability and Low-Pressure Sandstone Formations Using an Organically Crosslinked Polymer Sealant: Successful Field Application

Alshammari¹,

Rane²,

Harbi³

et al. 2018

SPE Asia Pacific Oil and Gas Conference and Exhibition

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This paper describes a rigless and cost-effective field implementation of conformance polymer sealant (CPS) and particulate-CPS (P-CPS) systems used successfully in high-permeability and low-pressure reservoirs for zonal isolation intervention. The CPS system is an organically crosslinked polymer that is thermally activated to effectively seal the targeted interval. The P-CPS system combines the CPS system with particulates that provide leakoff control to help ensure shallow matrix penetration of the sealant. The traditional method for zonal isolation consists of rig intervention for cement squeeze, which can be time-consuming and expensive. In high-permeability and low-pressure reservoirs, several unsuccessful attempts can extend the intervention by two or more weeks. CPS and P-CPS systems provide a predictable and controllable right-angle set time that can help to ensure sealing on the first attempt. These systems do not develop compressive strength, simplifying the cleanup stage by quickly and easily jetting it out of the wellbore with coiled tubing (CT), as opposed to cement that must be drilled/milled out. This paper describes laboratory evaluations, treatment design methodologies, and two case histories from Kuwait, including one well that produced 1,600 BOPD after reperforations.

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World's Largest Yard Testing of a Thixotropic Polymer Sealant for Chemical Annular Plug Applications in Low-temperature Horizontal Wellbores

Matar

Santin

Taku³

et al. 2019

Day 2 Mon, October 14, 2019

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Forming a retrofit annular plug on controlled acid jet (CAJ) liners in horizontal wells can be challenging. Several conformance technologies have been tested with mixed results; optimal chemical placement is problematic, and results show that conventional treatments either slump or float along horizontal sections, fail to withstand the desired differential pressure, or are not achievable at low temperatures. This paper describes laboratory improvements and a large-scale yard test of a thixotropic polymer sealant (TPS). The TPS system is composed of an organically crosslinked polymer combined with optimized rheological modifiers, which enable predictable and controllable crosslinking times. This allows precise TPS placement into the horizontal or deviated wellbores to help control unwanted water or gas. Extensive laboratory testing was conducted on the TPS system to formulate the optimal rheology at low temperatures. A specialized laboratory-scaled test cell was purposely built to verify the development of the thixotropic blend at low temperatures of 35 to 40°C. After successful laboratory testing, a 520-ft long yard test was conducted to mimic a field trial. It consisted of centralized 4 1/2-in. tubing run horizontally inside a 7-in. casing. Four predrilled holes of 4-mm diameter were located midway along the tubing to represent the perforations, providing communication to the annulus of the tubing and casing. A 2.25-in. outer diameter (OD) high-pressure hose, representing coiled tubing, was placed inside the 4 1/2-in. tubing and used to deliver the TPS fluid to the perforations. The entire setup was pressure-tested to 5,000 psi and heated to 40°C using an insulated heating blanket. A high-pressure pump was used to pump and displace 6 bbl of TPS, which was sufficient to form a 300-ft annular plug. The chemical was allowed to crosslink and set for 45 hours. Results of this yard test showed that a 300-ft TPS annular plug is capable of withstanding up to 4,620-psi differential pressure. The setup was then cut at various locations, both treated and untreated, to confirm, assess, and observe TPS placement in the cross-section of the tubulars. It was observed that the TPS can flow in the smaller spaces between the tubing and the centralizer, helping ensure optimal sealing. The TPS system described here can be used to help reduce unwanted water or gas production in long horizontal wells with CAJ liners. The open annulus between the preperforated liner and the formation makes selective isolation for the presence of thief zones, high-permeability zones, or fractures extremely challenging. Left untreated, this can eventually result in a large increase in water production and eventually a reduction in the economic life of the field.

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An Alternative Method for Cement Squeeze in North Kuwait: Case Study

Cited by 9 publications

References 13 publications

Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent

Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent

Rigless Zonal Isolation in High-Permeability and Low-Pressure Sandstone Formations Using an Organically Crosslinked Polymer Sealant: Successful Field Application

World's Largest Yard Testing of a Thixotropic Polymer Sealant for Chemical Annular Plug Applications in Low-temperature Horizontal Wellbores

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An Alternative Method for Cement Squeeze in North Kuwait: Case Study

Cited by 9 publications

References 13 publications

Nanoarchitectonics and performance evaluation of a Fe3O4-stabilized Pickering emulsion-type differential pressure plugging agent

Nanoarchitectonics and performance evaluation of a Fe3O4-stabilized Pickering emulsion-type differential pressure plugging agent

Rigless Zonal Isolation in High-Permeability and Low-Pressure Sandstone Formations Using an Organically Crosslinked Polymer Sealant: Successful Field Application

World's Largest Yard Testing of a Thixotropic Polymer Sealant for Chemical Annular Plug Applications in Low-temperature Horizontal Wellbores

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Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent

Nanoarchitectonics and performance evaluation of a Fe₃O₄-stabilized Pickering emulsion-type differential pressure plugging agent