Estudo da influência dos particulados no fenômeno de agregação dos asfaltenos por espectrometria de varredura óptica

Henriques, Claudete Bernardo; Winter, Alessandra; Koroishi, Érika Tomie; Filho, Rubens Maciel; Bueno, Maria Izabel M. S.

doi:10.1590/s0100-40422011000300011

Cited by 6 publications

(5 citation statements)

References 8 publications

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“…4,9,14,18 The main limitations of the method to determine the precipitation onset of asphaltenes utilizing flocculant titration with monitoring of the absorption intensity by NIR are related to two factors: (i) in viscous oil samples, it is only possible to identify the effect of dilution of the sample, not the precipitation of asphaltenes; and (ii) the interference of the particles present in crude oil (from the reservoir rock formation) is not considered. 7,42 However, these drawbacks are not found when analyzing model systems, as those containing asphaltenes in toluene analyzed here.…”

Section: ■ Introductionmentioning

confidence: 98%

Asphaltene Aggregation: Influence of Composition of Copolymers Based on Styrene-Stearyl Methacrylate and Styrene-Stearyl Cinnamate Containing Sulfate Groups

Palermo

Lucas

2016

Energy Fuels

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The stabilization of asphaltenes by chemical additives, resulting mainly from the action of amphiphilic molecules with low molar mass, has been widely used in the petroleum industry. Polymer materials can also be used as asphaltene stabilizers, although they can act as stabilizers or flocculants in function of their molar mass and/or composition. Asphaltene flocculation is also important in deasphalting crude oil or recovering polyaromatic molecules to be used as filler in polymer composites. In order to better understand the factors that affect the action of polymers on asphaltene phase behavior, we investigated a new family of compounds based on styrene-octadecyl methacrylate and styrene-octadecyl cinnamate, with varied sulfonation degrees. The results show that besides molar mass, the content of long pendant hydrocarbon chains (C18), the sulfonic groups content in the molecule and the polymer concentration directly influence the type of effect (stabilization or flocculation) on asphaltenes. The sulfonation of copolymers increases their stabilizing action by promoting stronger interaction of the additive with the asphaltene molecules by sulfonic groups. However, an excess of sulfonic groups promotes a reversal of this behavior, from stabilizing to flocculating, because a large amount of sulfonic groups in the same molecule brings the asphaltene molecules together and induces their aggregation.

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Section: ■ Introductionmentioning

confidence: 98%

Asphaltene Aggregation: Influence of Composition of Copolymers Based on Styrene-Stearyl Methacrylate and Styrene-Stearyl Cinnamate Containing Sulfate Groups

Palermo

Lucas

2016

Energy Fuels

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“…Wiehe and Kennedy, studying oil compatibility, have determined the critical solubility parameter at the onset of asphaltenes flocculation for Souedie Crude oil at around 16.35 MPa 1/2 . Even though this value can change for different crude oils and Nikooyek and Shaw study has concluded that the use of the solubility parameter is not suitable to describe asphaltenes + diluent mixture behavior, eq has been used to determine the solubility parameter of the crude oil, assuming δ M = 16.35 MPa 1/2 . ,− where δ i is the solubility parameter of component i and φ i is the fraction by volume of component i in the mixture.…”

Section: Introductionmentioning

confidence: 99%

Asphaltenes Precipitation Onset: Influence of the Addition of a Second Crude Oil or Its Asphaltenes Fractions (C3I and C5I)

et al. 2018

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Predicting the asphaltene stability in crude oils from different production streams is very useful in the petroleum industry because it allows avoiding serious problems caused by formation of solid deposits during oil flow. That prediction can be carried out by applying the solubility parameter (δ) of each oil, as calculated by the asphaltene precipitation onset value, obtained by titration with n-heptane. However, many crude oils do not have a well-defined precipitation onset point, which can be overcome by adding a crude oil assumed as the standard. This article analyzes the influence of a crude oil (called APS) on the precipitation onset of two other petroleum samples (called APA and APB). For this purpose, the asphaltene fractions C3I and C5I were extracted from APS, and the influence of the addition of this crude oil as well as its asphaltenes fractions in samples of oils APA and APB was evaluated by tests involving titration of n-heptane with detection by near-infrared spectroscopy (NIR). The calculation of the solubility parameters of the oils without well-defined precipitation onset, by adding the oil with well-defined precipitation onset, led to varied errors in function of the type of oil in question. The smallest errors were obtained when using, as the solubility parameter of the mixture (δM), the solubility parameter of the solvent system at the precipitation onset of the asphaltene C3I fraction (extracted from the crude oil assumed as the standard) in toluene, determined by titration with n-heptane.

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“…[10][11][12][13][14] The deposition of asphaltenes is associated with the flocculation of particles, which starts due to variations in the composition of the crude oil and temperature, pressure and flow regime. [15][16][17] The flocculation can be promoted by the addition of apolar solvents to the oil (such as n-pentane and n-heptane). When a large quantity of aromatic solvent is present, molecular aggregates can be formed in the dispersed medium.…”

Section: Introductionmentioning

confidence: 99%

Separation and characterization of asphaltenic subfractions

Honse¹,

Ferreira²,

Mansur³

et al. 2012

Quím. Nova

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Recebido em 13/4/12; aceito em 2/7/12; publicado na web em 21/9/12The structure of the various asphaltenic subfractions found in crude oil was evaluated. For this purpose, C5 asphaltenes were extracted from an asphaltic residue using n-pentane as the flocculant solvent. The different subfractions were isolated from the C5 asphaltenes by the difference in solubility in different solvents. These were characterized by infrared spectroscopy, nuclear magnetic resonance, X-ray fluorescence, elementary analysis and mass spectrometry. The results confirmed that the subfractions extracted with higher alkanes had greater aromaticity and molar mass. However, small solubility variations between the subfractions were attributed mainly to the variation in the concentrations of cyclical hydrocarbon compounds and metals.

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Estudo da influência dos particulados no fenômeno de agregação dos asfaltenos por espectrometria de varredura óptica

Cited by 6 publications

References 8 publications

Asphaltene Aggregation: Influence of Composition of Copolymers Based on Styrene-Stearyl Methacrylate and Styrene-Stearyl Cinnamate Containing Sulfate Groups

Asphaltene Aggregation: Influence of Composition of Copolymers Based on Styrene-Stearyl Methacrylate and Styrene-Stearyl Cinnamate Containing Sulfate Groups

Asphaltenes Precipitation Onset: Influence of the Addition of a Second Crude Oil or Its Asphaltenes Fractions (C3I and C5I)

Separation and characterization of asphaltenic subfractions

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