Well Integrity Improvement: CCA Preventive Actions in HPHT Offshore Gas Wells in the Arabian Gulf

Al-Subhi, Abdullah M.; Abduljabbar, A. M.; Agazade, K.; Al-Yami, Abdullah

doi:10.2118/184004-ms

Cited by 7 publications

(1 citation statement)

References 3 publications

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“…2 is quite high at the varying temperatures, the varying temperature and pressures also shows that transit time keeps increasing to up to 1 hour, this time would expose the cement slurry after placement to formation pressures which could destabilize the slurry causing micro annuli and channeling leading to need for remedial cement job to be done after a cement bond log has been conducted [8][9][10].…”

Section: Discussionmentioning

confidence: 99%

Effect of Silica Flour and Potasium Chloride as Additives in the Rhelogical Properties of High Temperature High Pressure Gas Well Cement Slurry

Roli,

Joel,

John

2023

JERR

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This study explores the effects of silica flour and potassium chloride on the rheological properties of high temperature and pressure gas wells. Seven different materials were used as additives which includes: fresh water, dyckerhoff, silica flour, antifoam, extender, fluid loss, dispersant, retarder, anti-settling agent, gas control agent, dry viscosifier, potassium chloride and accelerator. Four recipes were prepared using these additives in different mixtures. Recipe four has all the additives including silica flour and potassium chloride. A series of flow tests was performed using an advanced shear-stress/shear strain controlled rheometer. Rheological properties of cement slurries were calculated from the resulting flow curves using the Bingham plastic model and the Herschel–Bulkley’s model. Changes in shear stress–shear rate relationships, yield stress, plastic viscosity, and shear thinning/thickening behavior were found to be related to temperature and the type and dosage of supplementary cementitious material. The four recipes were applied in 10 cases.Among the four different recipes tested for all the 10 cases, Recipe 4 has the best regression values for both temperature vs transit time and pressure vs transit time this can be attributed to the presence of silica flour and potassium chloride.

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Section: Discussionmentioning

confidence: 99%

Effect of Silica Flour and Potasium Chloride as Additives in the Rhelogical Properties of High Temperature High Pressure Gas Well Cement Slurry

Roli,

Joel,

John

2023

JERR

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An Overview of Polymer Resin Systems Deployed for Remedial Operations in Saudi Arabia

Alsaihati

Al-Yami

Wagle

et al. 2017

Day 2 Tue, April 25, 2017

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Gas migration through cement columns has been an industry challenge for many years. Formation gas/influx can migrate through the cement column resulting in gas being present at the surface. To overcome gas migration on existing wells, remedial jobs are executed, which requires detailed engineering and testing prior field deployment. The objective of this paper is to detail the effort and experimental work that took place to use different polymer resin systems in Saudi Arabia gas wells. The two polymer resin systems are differentiated by their main component, either epoxy resin or polyester resin. The epoxy resin system is prepared by mixing an epoxy resin with an aromatic amine curing agent while the polyester resin system is prepared by mixing polyester resin with norpol peroxide curing agent, filler, and silicon dioxide. This study is the first to assess the performance of two different types of polymer resin systems and evaluate their remedial operations according to the authors’ best knowledge. In addition, this paper discusses operational challenges that may occur when using each type of polymer resin system. Lab tests were conducted to measure the thickening time, the rheological properties, compressive strength, and limitations for each polymer resin system. The tests suggest that a maximum temperature of 225°F and 275°F should be maintained when using the epoxy and polyester polymer resin systems, respectively. Based on the study, the epoxy resin system is easier to control as it is composed of only two components unlike the polyester resin system, which is comprised of several components. The lab study suggests operational recommendations to increase the probability of success of the polymer resin systems.

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Management of Sustained Casing Pressure in Offshore Gas Wells by a Novel Casing-Surface Design that Suppress Gas Migration at the Casing-Cement Interface

Mwang'ande

Liao

Zeng

2019

Day 2 Tue, October 22, 2019

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Sustained Casing Pressures (SCP) is still a serious problem that challenges the offshore producing gas wells. Despite existence of the many methods to mitigate it, SCP is still bringing severe health, safety and environmental (HSE) concerns necessitating the need for new methods. This article brings a new method of mitigating SCP caused by micro-annulus in offshore gas wells by designing a novel casing surface that will increase the length of casing-cement interface (CCI) for the same planned cement column length and thereby suppressing fluid migration through the CCI. Two new casing-surface designs were invented and tested by inputting the field data from offshore gas well X in conjunction with an existing SCP prediction model to verify the validity of the new method. The new developed method was found to have a great potential of controlling SCP and improve the production life time of the offshore gas wells by suppressing gas migration through micro-annulus.

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Well Integrity Improvement: CCA Preventive Actions in HPHT Offshore Gas Wells in the Arabian Gulf

Cited by 7 publications

References 3 publications

Effect of Silica Flour and Potasium Chloride as Additives in the Rhelogical Properties of High Temperature High Pressure Gas Well Cement Slurry

Effect of Silica Flour and Potasium Chloride as Additives in the Rhelogical Properties of High Temperature High Pressure Gas Well Cement Slurry

An Overview of Polymer Resin Systems Deployed for Remedial Operations in Saudi Arabia

Management of Sustained Casing Pressure in Offshore Gas Wells by a Novel Casing-Surface Design that Suppress Gas Migration at the Casing-Cement Interface

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