Experimental Study on Asphaltene-Induced Formation Damage

Nabzar, L.; Aguilera, María Eugenia; Rajoub, Y.

doi:10.2118/93062-ms

Cited by 14 publications

(13 citation statements)

References 25 publications

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“…These include, first, a model system that consisted in Safania asphaltene dissolved in toluene and capillaries and more representative systems that consisted in three different crude oils (Weyburn, Hassi Messaoud and Arabian light) and Fontainebleau sandstones. Regarding model system and Weyburn crude oil, it was concluded that [15]: -Asphaltene deposition kinetics, indeed obeys the scaling law of the colloidal approach. -In the asphaltene deposition process, two main deposition regimes have been distinguished: -At low shear rate, and up to a first critical value (lower critical shear rate: γ cl ), the deposition is mainly diffusion-controlled and obeys the classical s = 2/3 power law (Equation 3 above) of the Diffusion Limited Deposition regime.…”

Section: Brief On the Previous Validation Workmentioning

confidence: 91%

“…Moreover, it was clearly demonstrated that this shear rate limitation results from a dynamic equilibrium between hydrodynamic and adhesion forces. Recently [15,18], a systematic and thorough experimental investigation of the asphaltene deposition kinetics has been performed using different systems and under different experimental conditions. These include, first, a model system that consisted in Safania asphaltene dissolved in toluene and capillaries and more representative systems that consisted in three different crude oils (Weyburn, Hassi Messaoud and Arabian light) and Fontainebleau sandstones.…”

Section: Brief On the Previous Validation Workmentioning

confidence: 99%

“…Nabzar et al [12][13][14][15] proposed a new approach for asphaltene deposition modeling that is called the "Colloidal Approach" and based on the theory of colloid transport and deposition in porous media and taking into account the specific feature of asphaltene particles such us their loose structure and their tendency to form multilayer deposition. This colloidal approach has been used successfully to model the deposition kinetics of different kind of colloid such as solid particles [16] and emulsion droplets [17].…”

Section: Introductionmentioning

confidence: 99%

“…This colloidal approach has been used successfully to model the deposition kinetics of different kind of colloid such as solid particles [16] and emulsion droplets [17]. This approach has been recently [15,18] experimentally validated through a systematic and thorough experimental investigation of the asphaltene deposition kinetics using different systems and under different experimental conditions. These include both model system that consisted in Safania asphaltene dissolved in toluene and capillaries and more representative system that consisted in Weyburn crude oil and Fontainebleau sandstones.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The Colloidal Approach. A Promising Route for Asphaltene Deposition Modelling

Nabzar

Aguilera

2008

Oil & Gas Science and Technology - Rev. IFP

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Résumé -L'approche colloïdale : une voie prometteuse pour la modélisation des dépôts d'asphaltènes -Il est généralement admis que les asphaltènes existent dans les bruts sous forme dissoute et particulaire et que les bruts asphalténiques se comportent en solution comme des systèmes colloïdaux. L'objectif de ce travail était de vérifier qu'en présence d'écoulement et au sein d'une matrice poreuse, les asphaltènes conservent ce comportement colloïdal. Pour cela, nous avons étudié expérimentalement la cinétique du dépôt en milieux poreux en fonction des paramètres pertinents tels que la vitesse, l'état d'agrégation des asphaltènes, le contenu en résines et l'origine de l'huile. L'étude a été menée à la fois sous des conditions bien contrôlées avec des systèmes modèles et sous des conditions plus représentatives de l'application avec des huiles réelles et des roches d'affleurement. Les résultats obtenus nous ont permis d'établir que le dépôt des asphaltènes obéit effectivement aux mêmes lois cinétiques que le dépôt des colloïdes en milieux poreux. Ils nous ont permis de proposer des lois cinétiques de type lois d'échelle de la forme η ∝ Aγ -s , η étant l'efficacité du dépôt et γ le cisaillement. Les exposants, s, sont des exposants universels caractéristiques des régimes de dépôt alors que les pré-facteurs A englobent l'ensemble des autres caractéristiques spécifiques au système considéré (asphaltènes et milieux poreux). Ces lois cinétiques montrent que l'épaisseur du dépôt, qui se fait par multicouche, croît fortement lorsque le cisaillement diminue. Par conséquent, si les conditions sont favorables, la formation rapide d'un dépôt épais est attendue lors de la récupération des bruts lourds dans des formations très perméables et à des faibles vitesses d'écoulement. Un tel dépôt peut donc avoir un impact significatif sur l'efficacité de la récupération des bruts lourds. L'estimation de cet impact devrait donc faire partie intégrante de l'évaluation et de l'optimisation de tout procédé de récupération. À cette fin, l'approche dite « Colloïdale » constitue une voie nouvelle et prometteuse pour la modélisation du dépôt et de l'endommagement associé. Abstract

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Section: Brief On the Previous Validation Workmentioning

confidence: 91%

Section: Brief On the Previous Validation Workmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The Colloidal Approach. A Promising Route for Asphaltene Deposition Modelling

Nabzar

Aguilera

2008

Oil & Gas Science and Technology - Rev. IFP

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“…Asphaltenes can deposit both in the producing slots and in the formation face. Deposition of asphaltene precipitates over pore surface and/or across pore throats may reduce the effective pore space and/or severely impair the ability of oil to flow through porous formation, altering the rock wettability from water-wet to oil -wet, and increasing hydrocarbon viscosity by nucleating water-in-oil emulsions [1][2][3][4][5] . On the other hand, enhanced oil recovery (EOR) processes have become increasingly important to the petroleum industry.…”

Section: Introductionmentioning

confidence: 99%

Multifunctional Evaluation of a New Supramolecular Complex in Enhanced Oil Recovery, Removal/Control of Organic Damage, and Heavy Crude Oil Viscosity Reduction

Alcázar-Vara

Zamudio‐Rivera

Buenrostro-González

2015

Ind. Eng. Chem. Res.

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The development of new technologies based in the design and application of new molecules to solve problems related to the removal and control of formation damage by organic deposition, viscosity reduction of heavy crude oils as well as to increase the oil recovery factor, is an important challenge in the oil industry. This experimental study reports the influence of a novel supramolecular complex on the removal/control of organic deposition and Enhanced oil recovery (EOR) processes through core displacements tests at reservoir pressure and temperature conditions. In addition, its capabilities as viscosity reducer for heavy crude oils are also reported. Three different Mexican brine-rock-crude oil systems were used to evaluate the multifunctional properties of the novel supramolecular complex. Results showed a good performance of the capabilities of the supramolecular complex tested to reduce viscosity, remediate organic damage as well as to enhance oil recovery factor. In order to explain the results obtained, an interaction mechanism between the new complex and crude oil heavy fractions on the porous medium, is suggested and discussed, in which phenomena such as oildisaggregation, wettability-alteration and viscosity reduction, take place to carry out the increasing of oil recovery factor and an efficient removal of organic damage.

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High‐throughput packed‐bed microreactors with in‐line analytics for the discovery of asphaltene deposition mechanisms

Hartman

2014

AIChE Journal

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in Wiley Online Library (wileyonlinelibrary.com)Understanding asphaltene nanoaggregation kinetics is a key to predicting the deposition in pure quartz-grain porous media. High-throughput quartz packed-bed microreactors (lPBRs) were, therefore, designed to provide mechanistic insights by merging oilfield chemistry and microchemical systems. In-line UV-Vis spectroscopy and pressure transducer were used to characterize the stable packing of quartz particles with porosity of $40% and permeability of $5.5 3 10 213 m 2 . Temperature (25.0-90.0 C), n-heptane composition (50.0-80.0 vol %), and n-alkane (n-C 5 to n-C 9 ) were all observed to influence asphaltenes deposition in the porous media, and reduced dispersion was obtained in the damaged packed-bed by estimating dispersion coefficients and the Bodenstein number. Deposition by mechanical entrapment dominated the mechanism in all scenarios, as discovered by the simplified Kozeny-Carman and Civan's permeability-porosity relationships. The results could aid in the design of remediations that minimize production losses of considerable economic magnitude.

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Experimental Study on Asphaltene-Induced Formation Damage

Cited by 14 publications

References 25 publications

The Colloidal Approach. A Promising Route for Asphaltene Deposition Modelling

The Colloidal Approach. A Promising Route for Asphaltene Deposition Modelling

Multifunctional Evaluation of a New Supramolecular Complex in Enhanced Oil Recovery, Removal/Control of Organic Damage, and Heavy Crude Oil Viscosity Reduction

High‐throughput packed‐bed microreactors with in‐line analytics for the discovery of asphaltene deposition mechanisms

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