Hervé Carrier scite author profile

A combined liquid chromatography coupled to a mass spectrometer with an ICP detector (μSEC-HR ICP MS; μSEC ICP for brevity) technique was used to analyze the metals in four asphaltenes and their corresponding A1 (toluene insoluble), A2 (toluene soluble), and trapped compound (TC, heptane soluble) fractions. For three of the asphaltene samples, the normalized μSEC ICP profiles for both nickel and sulfur were very similar, showing that nickel porphyrins were distributed in almost all types of asphaltene aggregates. Extensive overlapping with sulfur profiles was observed for all vanadium and nickel profiles at retention times below the maximum bands. This suggests that large amounts of nickel and other organometallic or metal-porphyrin-type (MP) compounds are interlocked with asphaltene molecules, forming aggregates in solution. The separation of MP compounds using common separation techniques is very difficult as extraction would require dissociation into several molecules. The presence of TCs (e.g., compounds other than asphaltenes that are soluble in n-heptane) in asphaltene aggregates was related to the fractal structure of asphaltene aggregates in which voids are filled with components coming from the surrounding media. Apparently, complete trapping of TCs is achieved by performing aggregate rearrangement after penetration, leading to an aggregate structure in which the TCs remain trapped. A similar trapping mechanism is proposed herein for the MP compounds. Accordingly, no covalent bonds or specific interactions appear to be required to account for the presence of MPs within asphaltene aggregates.

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Molecular Dynamics Study of Nanoaggregation in Asphaltene Mixtures: Effects of the N, O, and S Heteroatoms

Silva

Sodero

Bouyssière

et al. 2016

Energy Fuels

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In this paper the aggregation of asphaltenes is studied for two asphaltene molecule families, namely PA3 and CA22 analogues, based on the work of Schuler et al. (JACS, 2015, 137, 31, 9870). The chemical characteristics of these molecules were screened by changing the heteroatoms on the backbone and the lateral chain-ends. These molecules were mixed together with different relative concentrations and for the first time the aggregation of different asphaltenes was determined using molecular dynamics simulations (MDS). The results show that the interaction energies vary for different heteroatom arrangement within a given structure and depend on the type of asphaltene. Moreover, we showed that the chain-ends have a crucial role on this phenomenon.

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Study of Pressure and Temperature Effects on Asphaltene Stability in Presence of CO₂

et al. 2006

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In the prolific literature about asphaltenes, the effects of temperature and pressure on their stability are subjects of discussion. A new high-pressure cell, requiring a very small amount of sample and with wide working conditions, has been built in order to study the asphaltene phase behavior after injection of various gases and precipitants. A filtration technique is used to conclude on the effects of temperature, pressure, and composition. The precipitant used in this work is CO 2 . Two crude oils (from South America and the Middle East) were studied up to 383 K and 60 MPa. It was found for both oils that asphaltenes were more soluble when temperature was decreased and pressure was increased in the presence of a gas component. These effects were discussed with simple principles of thermodynamics.

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Hervé Carrier

Trapping of Metallic Porphyrins by Asphaltene Aggregates: A Size Exclusion Microchromatography With High-Resolution Inductively Coupled Plasma Mass Spectrometric Detection Study

Molecular Dynamics Study of Nanoaggregation in Asphaltene Mixtures: Effects of the N, O, and S Heteroatoms

Study of Pressure and Temperature Effects on Asphaltene Stability in Presence of CO₂

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Hervé Carrier

Trapping of Metallic Porphyrins by Asphaltene Aggregates: A Size Exclusion Microchromatography With High-Resolution Inductively Coupled Plasma Mass Spectrometric Detection Study

Molecular Dynamics Study of Nanoaggregation in Asphaltene Mixtures: Effects of the N, O, and S Heteroatoms

Study of Pressure and Temperature Effects on Asphaltene Stability in Presence of CO2

Contact Info

Product

Resources

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Study of Pressure and Temperature Effects on Asphaltene Stability in Presence of CO₂