An Experimental Investigation of Steam Induced Permeability Changes in Clay Bearing Formation of North Kuwait

Jain, Anil K.; Ahmed, Khalid; Ferdous, Hasan Shahid; Mishra, P. K.; Al-Matrook, M.; Al-Ali, Y.; Al-Khamees, Waleed; Piwowar, M.; Rick, Bujnowicz

doi:10.2118/179762-ms

Cited by 3 publications

(2 citation statements)

References 6 publications

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“…The work [8] considers the change in permeabilities in clay-bearing rocks of Northern Kuwait after exposure to steam. These rocks contain clay content of approximately 9% (mainly smectite and illite).…”

Section: The Influence Of the Content Of Clay Minerals On The Efficie...mentioning

confidence: 99%

The influence of the content of clay minerals on the efficiency of steam treatment injection for the bitumen oils recovery

Minkhanov¹,

Bolotov²,

Sagirov³

et al. 2021

SOCAR Proceedings

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Globally, for the development of bitumen oils thermal steam treatment is considered, since this technology is considered the most effective, but it has a number of problems with the presence of clay minerals in the rock. When clay minerals come into contact with steam they swell, leading to a decrease in the permeability of the reservoir, and therefore a decrease in the final oil recovery. This work assesses the influence of clay mineralization content on the degree of oil displacement under thermal steam treatment by conducing filtration experiments. Steam injection experiments containing low oil saturations of less than 2% resulted in no oil displacement. A solvent based on aliphatic and polar fragments was tested to extract oil in such low-oil saturated systems. Keywords: steam injection; bitumen oil; clay minerals; solvent; oil displacement.

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Section: The Influence Of the Content Of Clay Minerals On The Efficie...mentioning

confidence: 99%

The influence of the content of clay minerals on the efficiency of steam treatment injection for the bitumen oils recovery

Minkhanov¹,

Bolotov²,

Sagirov³

et al. 2021

SOCAR Proceedings

View full text Add to dashboard Cite

show abstract

“…Clay mineral components and contents will change due to the development of long-term water injection (Jiang et al 2012;Strand et al 2007), and they influence the microscopic porous structures and microscopic seepage characteristics in low permeability reservoirs. Some clay minerals are damaged during injection water development (Cosenza et al 2014;Yue et al 2011;Jain et al 2016). The destroyed clay mineral particles are dispersed and are able to migrate with the injected water.…”

Section: Introductionmentioning

confidence: 99%

Experimental investigation on reservoir damage caused by clay minerals after water injection in low permeability sandstone reservoirs

Yazhou

Yang

Yin

2021

J Petrol Explor Prod Technol

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Water injection is an effective method for developing low permeability sandstone reservoirs. In the process of water flooding, reservoir damage can occur due to clay mineral content changes and it will significantly affect oil production. There are few investigations on the changes in clay mineral content and the degree of reservoir damage after injecting the water into low permeability sandstone reservoirs with different permeabilities and lithologies. In this study, low permeability natural cores from different lithological strata were collected from 4 wells in the Daqing sandstone reservoir, and clay mineral components and contents were measured through X-ray diffraction. Changes in the clay mineral content were determined after water injection. The reservoir damage mechanism by clay mineral migration was determined by analyzing scanning electron microscopy (SEM) images after water injection. Meanwhile, the porosity and permeability of the cores were tested after water injection, and the degree of reservoir damage in different lithological strata was determined. The clay mineral content ranges from 6.78 to 14.14% in low permeability sandstone cores and declines by 49.73% after water flooding. Illite, chlorite and illite/smectite mostly decrease, and kaolinite decreases the least. Due to the large particle size of kaolinite, kaolinite migration will block the pore-throats and cause formation damage after water flooding. In argillaceous siltstone and siltstone, kaolinite particles blocking pore-throats are very serious, and the permeability decreases greatly by 21.87–36.89% after water injection. With increasing permeability, the permeability decreases greatly after water injection. The findings of this study can help to better understand the mechanisms of formation damage after injecting water into low permeability sandstone reservoirs.

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Formation Damage Associated With Mineral Alteration and Formation of Swelling Clays Caused by Steam Injection in Sandpacks

Kudrashou

Nasr‐El‐Din

2019

SPE Reservoir Evaluation &Amp; Engineering

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Summary Thermal-recovery methods are commonly used for production of viscous crude oil. Injected hot fluids react with reservoir rock, and some of these reactions might result in a change to the reservoir mineralogy. Depending on the physicochemical conditions and initial mineralogy, some such alterations can lead to formation damage and flow-assurance issues. This paper investigates these mineral reactions, the conditions in which they occur, and the effects of these processes on porosity and permeability of sandstone rocks with various initial mineralogy. Quartz, calcite, dolomite, kaolinite, and montmorillonite were used for preparation of 12 rock samples of various mineralogical contents. These mixtures were packed and used for steam-injection experiments. Porosity and permeability of the initial and steamed sandpacks were determined using computed-tomography (CT) scans and coreflood experiments, respectively. Composition of the collected condensate samples was analyzed using inductively coupled plasma optical emission spectroscopy (ICP-OES). Rock mixtures were aged in high-pressure/high-temperature (HP/HT) cells. Rock morphology and pore-space configuration were studied using scanning-electron-microscope energy dispersive X-ray spectroscopy (SEM-EDS). Mineralogy of the samples was analyzed using X-ray-diffraction (XRD) analysis. Mixtures of quartz with calcite were found to be the least prone to formation damage associated with steam injection. Silica dissolution/precipitation reaction resulted in 5% initial permeability reduction and 1 to 2% initial porosity reduction. Mixtures of quartz, kaolinite, and carbonate minerals (calcite or dolomite) after steam injection lost 11 to 22% of initial permeability and 2 to 7% of initial porosity. Kaolinite fines were shown to be mobilized during steam treatment. Aging of these rock mixtures for 10 days at 400°F and 1,000 psi led to formation of swelling smectite clay (Ca montmorillonite). Growth of montmorillonite was demonstrated to be possible only at low carbon dioxide (CO2) partial pressures. Mixtures with dolomite are shown to produce more montmorillonite than mixtures with calcite. Steam injection in montmorillonite-rich sandstone caused up to 84% loss in the initial permeability and up to 8% loss in initial porosity. The principal formation-damage mechanism proved to be clay swelling, which led to filling of pores with montmorillonite. The microporous network that filled the pores significantly restricted the flow. Aging of montmorillonite-rich mixtures did not reveal mineral alterations but did allow visualization of the morphological reorganization of montmorillonite and its pore-bridging effect. This paper describes interactions between superheated steam and rock samples. This study further characterizes formation-damage mechanisms caused by hydrothermal alterations and their effects on petrophysical properties of reservoir rocks. Data about conditions of mineral reactions can be used to shift the physicochemical or operational conditions to prevent growth of swelling clays such as montmorillonite.

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An Experimental Investigation of Steam Induced Permeability Changes in Clay Bearing Formation of North Kuwait

Cited by 3 publications

References 6 publications

The influence of the content of clay minerals on the efficiency of steam treatment injection for the bitumen oils recovery

The influence of the content of clay minerals on the efficiency of steam treatment injection for the bitumen oils recovery

Experimental investigation on reservoir damage caused by clay minerals after water injection in low permeability sandstone reservoirs

Formation Damage Associated With Mineral Alteration and Formation of Swelling Clays Caused by Steam Injection in Sandpacks

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