Sand control screen selection for cased dual‐annulus gas offshore wells based on scaled laboratory tests

Miri, Rahman; Salimi, Mahmoud; Stewart, Suzanne; Bermudez Gonzalez, Jose Manuel; Mazo Suárez, Camilo; Nouri, Alireza

doi:10.1002/cjce.25159

Cited by 3 publications

(1 citation statement)

References 14 publications

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“…Compared to conventional dense resins, the pores of the porous polyurethane provide seepage channels that limit permeability reduction . Many field applications have shown that resin injection for sand production control can effectively improve reservoir mechanical properties and reduce sand production (El-monier et al, 2013;Shang et al, 2019;Izurieta et al, 2020;Mahardhini et al, 2021;Zaitoun et al, 2022;Miri et al, 2023;Peerakham et al, 2023;Stephen Babagbemi et al, 2023).…”

Section: Resin Injection Methodsmentioning

confidence: 99%

Chemical sand production control: a review of materials, methods and characterization

Xu,

Shen,

Zhou

et al. 2024

Front. Energy Res.

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Sand production is one of the challenges facing the oil industry. This paper reviews the latest research advances in chemical sand control and aims to provide a reference for related researchers. Firstly, the commonly used chemical sand control materials are introduced. Second, recent advances in chemical sand control are reviewed, including materials, methods, and processes. Third, laboratory methods for sand control research are presented. Finally, the gaps and challenges of chemical sand control materials are pointed out, and possible future directions for chemical sand control methods are envisioned.

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Section: Resin Injection Methodsmentioning

confidence: 99%

Chemical sand production control: a review of materials, methods and characterization

Xu,

Shen,

Zhou

et al. 2024

Front. Energy Res.

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Experimental Simulation of Bottom Hole Gas-Water-Sand Inflow Pattern in Highly Argillaceous Hydrate Well with Different Sand Control Completions

Liu,

Dong,

Shi

et al. 2024

Preprint

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Gas–Water–Sand Inflow Patterns and Completion Optimization in Hydrate Wells with Different Sand Control Completions

Liu,

Dong,

Shi

et al. 2024

JMSE

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Sand production poses a significant problem for marine natural gas hydrate efficient production. However, the bottom hole gas–water–sand inflow pattern remains unclear, hindering the design of standalone screen and gravel packing sand control completions. Therefore, gas–water–sand inflow patterns were studied in horizontal and vertical wells with the two completions. The experimental results showed that gas–water stratification occurred in horizontal and vertical standalone screen wells. The gas–water interface changed dynamically, leading to an uneven screen plugging, with severe plugging at the bottom and high permeability at the top. The high sand production rate and low well deviation angle exacerbated screen plugging, resulting in a faster rising rate of the gas–water interface. The screen plugging degree initially decreased and then increased as the gas–water ratio increased, resulting in the corresponding variation in the gas–water interface rising rate. Conversely, gas–water stratification did not occur in the gravel packing well because of the pore throat formed between the packing gravels. However, the impact of gas and water led to gravel rearrangement and the formation of erosion holes, causing sand control failure. A higher gas–water ratio and lower packing degree could result in more severe destabilization. Therefore, for the standalone screen completion, sand control accuracy should be designed at different levels according to the uneven plugging degree of the screen. For the gravel packing completion, increase the gravel density without destabilizing the hydrate reservoir, and use the coated gravel with a cementing effect to improve the gravel layer stability. In addition, the screen sand control accuracy inside the gravel packing layer should be designed according to the sand size to keep long-term stable hydrate production.

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Sand control screen selection for cased dual‐annulus gas offshore wells based on scaled laboratory tests

Cited by 3 publications

References 14 publications

Chemical sand production control: a review of materials, methods and characterization

Chemical sand production control: a review of materials, methods and characterization

Experimental Simulation of Bottom Hole Gas-Water-Sand Inflow Pattern in Highly Argillaceous Hydrate Well with Different Sand Control Completions

Gas–Water–Sand Inflow Patterns and Completion Optimization in Hydrate Wells with Different Sand Control Completions

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