Why Scale Forms in the Oil Field and Methods To Predict It

Oddo, J.E.; Tomson, Mason B.

doi:10.2118/21710-pa

Cited by 230 publications

(106 citation statements)

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“…Inorganic scaling is a process of deposition of scales from aqueous solutions of minerals, referred to as brines, when they become supersaturated as a result of alteration of their thermodynamic state and chemical equilibria [13,14]. In the following section, some key terms regarding the process of calcium sulphate deposition are given.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…The variations of permeability versus pore volumes of injected fluid were measured by applying Darcy's law for single phase flow: (13) Solving Equation (13) for K yields: (14) Bu and Damsleth [20] introduced the uncertainties in permeability measurements as follows: (15) Δμ, ΔL, ΔA, ΔQ, ΔP represent the errors or uncertainties associated with these quantities. The accuracies and errors associated with the experimental equipment are given in Table 4.…”

Section: Error Analysis Of the Experimentsmentioning

confidence: 99%

See 1 more Smart Citation

Experimental and Theoretical Study of Calcium Sulphate Precipitation in Porous Media Using Glass Micromodel

Ghaderi

Kharrat

Tahmasebi

2009

Oil & Gas Science and Technology - Rev. IFP

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Résumé -Étude théorique et expérimentale de la précipitation de sulfate de calcium en milieu poreux sur micromodèle de verre -Le mélange de deux eaux incompatibles lors d'injection d'eau donne habituellement lieu à précipitation et formation de dépôts minéraux dans les milieux poreux. Ces dépôts qui réduisent la porosité et surtout la perméabilité de la roche ont une influence considérable sur les performances des scénarios d'injection d'eau. Dans cette étude, une série d'expériences a permis d'étudier l'effet de différents paramètres sur la précipitation progressive de sulfate de calcium. Il s'agit notamment de la température, de la concentration des saumures mélangées, de la pression et du débit. En raison de sa transparence, un micromodèle de réseau représentatif d'un grès mouillable à l'eau a été utilisé comme support poreux et a permis d'observer facilement la formation et la distribution des dépôts minéraux. De plus, le suivi du déplacement des particules solides est largement facilité par le nouveau dispositif expérimental proposé. Les photos de coupes obtenues en microscopie montrent que le dépôt est initié sur les parois et les seuils des pores, qu'il se propage vers l'intérieur de ces pores, et que les cristaux solides ont une forme en crête de coq. Pour une meilleure compréhension de l'effet de chacun des paramètres mentionnés ci-dessus, il a été tracé une courbe de la réduction de perméabilité en fonction du volume de solution de saumure injectée dans les pores. Les résultats ont indiqué que l'augmentation de la température, de la concentration de saumure et du débit conduisent à une augmentation de la tendance au dépôt de minéraux. La pression n'a qu'un rôle mineur sur le développement du processus. Le dépôt de CaSO 4 se modélise comme une fonction de réduction de la perméabilité dépendante des différents paramètres. C'est pourquoi il a été proposé une fonction exponentielle (de corrélation) qui intègre sous une forme adimensionnelle tous les paramètres physiques ayant une influence sur le comportement du système. Le nombre de Reynolds, l'index de précipitation et l'écart par rapport aux conditions d'équilibre constituent le fondement de cette corrélation. Les exposants ajustables de l'équation ont été déterminés et optimisés au moyen d'un algorithme génétique. Cette corrélation significative peut également prédire, avec une précision raisonnable, les résultats issus d'expériences sur carottes. Abstract -Experimental and Theoretical Study of Calcium Sulphate Precipitation in Porous Media

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Section: Theoretical Backgroundmentioning

confidence: 99%

Section: Error Analysis Of the Experimentsmentioning

confidence: 99%

Experimental and Theoretical Study of Calcium Sulphate Precipitation in Porous Media Using Glass Micromodel

Ghaderi

Kharrat

Tahmasebi

2009

Oil & Gas Science and Technology - Rev. IFP

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“…Oddo et al (1991); Oddo and Tomson (1994) showed that the formation of calcium sulfate scale depends on temperature and does not depend on pH and can precipitate at low as well as high pH values. In the case where water injection (seawater, river, aquifer, or produced water) is used for pressure maintenance and sweep, the mixing of incompatible aqueous solutions can lead to the formation of sulfate scales when the injection water contains sulfate ions (Mackay and Jordan 2005).…”

Section: Introductionmentioning

confidence: 99%

Using high- and low-salinity seawater injection to maintain the oil reservoir pressure without damage

Mahmoud

Elkatatny

Abdelgawad

2016

J Petrol Explor Prod Technol

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The oil reservoir pressure declines due to oil production, and this decline will lead to reduction in the oil productivity. The reservoir pressure maintenance is a practice in the oil industry in which seawater is injected into the aquifer zone below the oil zone to support the reservoir pressure. Calcium sulfate scale is one of the most serious oilfield problems that could be formed in sandstone and carbonate reservoirs. Calcium sulfate may precipitate during the injection of seawater with high sulfate content into formation brine with high calcium content. Mixing seawater and formation water may cause precipitation of calcium sulfate, barium sulfate, and/or strontium sulfate. Seawater treatment does not remove the entire sulfate ions from the injected water. Low sulfate concentrations may cause damage. Enhanced oil recovery processes such as smart water injection, which originally is diluted seawater, may cause calcium sulfate precipitation as the reduction of water salinity will increase the sulfate precipitation and decrease its solubility. This study was conducted to investigate the damage caused by the deposition of calcium sulfate precipitation. A solution is proposed to prevent the damage due to calcium sulfate by using chelating agents. Several coreflooding experiments were conducted using Berea sandstone and Indiana limestone cores at reservoir conditions of pressure and temperature using seawater (high and low salinity) and formation water. Chelating agents used in this study are: EDTA (ethylenediaminetetraacetic acid), HEDTA (hydroxyethylenediaminetriacetic acid), and HEIDA (hydroxyethyliminodiacetic acid). HEDTA and HEIDA chelating gents are environmentally friendly and can be used in marine environment. High-salinity water injection caused severe formation damage, and the injectivity will decline faster compared to the low-salinity water injection. HEDTA and EDTA chelating agents at low concentrations performed better than HEIDA chelating agents in both Berea sandstone and Indiana limestone cores. HEDTA and EDTA chelating agents were able to prevent the damage due to calcium sulfate precipitation and enhanced the core permeability.

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“…[8][9][10][11] Initial electrostatic interaction of dissolved anions and cations is the genesis of ion pairs that sequentially act as "building blocks". They later assemble to form larger aggregates.…”

Section: Mechanism Of Scale Formationmentioning

confidence: 99%

Rational Development of New Cooling Water Chemical Treatment Programs for Scale and Microbial Control

Demadis

Yang

Young

et al.

Advances in Crystal Growth Inhibition Technologies

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Why Scale Forms in the Oil Field and Methods To Predict It

Cited by 230 publications

References 20 publications

Experimental and Theoretical Study of Calcium Sulphate Precipitation in Porous Media Using Glass Micromodel

Experimental and Theoretical Study of Calcium Sulphate Precipitation in Porous Media Using Glass Micromodel

Using high- and low-salinity seawater injection to maintain the oil reservoir pressure without damage

Rational Development of New Cooling Water Chemical Treatment Programs for Scale and Microbial Control

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