Crude Oil Electrical Conductivity Measurements at High Temperatures: Introduction of Apparatus and Methodology

Charin, Rafael Mengotti; Chaves, Gabriela Muniz Telo; Kashefi, Khalil; Alves, Robson Pereira; Tavares, Frederico W.; Nele, Márcio

doi:10.1021/acs.energyfuels.6b03237

Cited by 13 publications

(8 citation statements)

References 16 publications

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“…In general, the relationship between crude oil electrical conductivity and temperature was exponential. 80 Similar results were reported by Rocha et al ( 2019), who employed an impedance spectroscopy method to measure the electrical conductivity of heavy and medium crude oils, and water in oil (W/O) emulsions at 30 °C and 50 °C. 81 The results revealed that an increase in temperature results in an increase in electrical conductivity.…”

Section: Electrical Properties Of Asphaltenessupporting

confidence: 81%

“…Increased oil viscosity contributes to lower conductivity at low temperatures. In general, the relationship between crude oil electrical conductivity and temperature was exponential . Similar results were reported by Rocha et al (2019), who employed an impedance spectroscopy method to measure the electrical conductivity of heavy and medium crude oils, and water in oil (W/O) emulsions at 30 °C and 50 °C .…”

Section: Electrical Properties Of Asphaltenessupporting

confidence: 79%

“…78,80−86 It has been shown that the crude oils rich with asphaltenes had a higher conductivity than other oils. 80 The conductivity of crude oil solution was suggested to be governed not only by the amount of asphaltenes in the crude oil but also by their aggregation state and mobility. The crude oil diluted with heptane showed a lower conductivity than those same oils diluted with the same amount of toluene.…”

Section: Electrical Properties Of Asphaltenesmentioning

confidence: 99%

“…Electrical conductivity (EC) represents the ability of material to conduct an electric current. EC measurements have been utilized to understand behavior of asphaltenes alone and their interactions with other crude oil components in different solvents. ,− It has been shown that the crude oils rich with asphaltenes had a higher conductivity than other oils . The conductivity of crude oil solution was suggested to be governed not only by the amount of asphaltenes in the crude oil but also by their aggregation state and mobility.…”

Section: Electrical Properties Of Asphaltenesmentioning

confidence: 99%

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Review of Asphaltenes in an Electric Field

2021

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Asphaltenes are regarded as troublesome components of crude oils as their precipitation and deposition inside production wells and downstream infrastructure often result in a reduction of production capacity and, in critical cases, production shut-in. It has been shown that asphaltene deposition on conductive surfaces can be controlled by the application of an electric field. The electric field has been used to either inhibit or accelerate asphaltene deposition. This paper reviews asphaltene behavior in an electric field. It describes the structure and electric properties of asphaltenes as well as their electrokinetic behavior. State-of-the-art asphaltene electrodeposition and separation from both model and crude oils using electric fields are also discussed. The influence of parameters such as asphaltene chemistry, crude oil composition, pH, electric field strength, and flow conditions on the asphaltene electrodeposition process is addressed, and the effect of asphaltene interactions with themselves and other crude oil components is evaluated. A comprehensive literature survey reported the electrodeposition on both positive and negative electrodes, which suggests the complexity of the process. It has been shown that asphaltene charges can be tailored by changing the process parameters. Because of the high energy efficiency and relatively simple process, asphaltene electrodeposition is currently a key solution for removal of asphaltenes from crude oils. This review also highlights the main challenges and knowledge gaps associated with the asphaltene electrodeposition process.

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Section: Electrical Properties Of Asphaltenessupporting

confidence: 81%

Section: Electrical Properties Of Asphaltenessupporting

confidence: 79%

Section: Electrical Properties Of Asphaltenesmentioning

confidence: 99%

Section: Electrical Properties Of Asphaltenesmentioning

confidence: 99%

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Review of Asphaltenes in an Electric Field

2021

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“…The relationship between conductivity and temperature in many nonaqueous systems can be described by the Arrheniustype equation, 31−33 and some previous research 59,60 suggest that an Arrhenius-type conductivity−temperature dependence, shown in eq 5, can be observed with crude oils as well…”

Section: Modeling the Impedance Characteristics Of Waxy Crude Oils At...mentioning

confidence: 94%

Influence of Wax Precipitation on the Impedance Spectroscopy of Waxy Oils

Chen

Zhang

Ma³

et al. 2019

Energy Fuels

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Impedance spectroscopy (IS) is a widely used nondestructive and high-throughput experimental technique for the characterization of electrical properties of materials. In the petroleum industry, IS is frequently employed to determine the electrical properties of asphaltenes and resins. The electrical properties of waxy crude oils, which correlate significantly with the flowability, however, have received little to no attention in the existing investigations. In this work, we inspected the influence of wax precipitation on IS of waxy crude oil for the first time. The investigation was carried out in a frequency range of 2 × 10–1 to 2 × 104 Hz and a temperature range of 5–60 °C. It was discovered that the Nyquist diagram representing the electrical response of waxy oil evolves from one semicircle to two semicircles as wax molecules precipitate at temperatures below the wax appearance temperature. IS of waxy crude oil can be reproduced by an equivalent circuit model composed of two serially connected constant phase element-ideal resistance combinations (R bulk|Q bulk – R wax|Q wax). It was found that the resistor-like contribution from wax in the equivalent circuit model, R wax, increases with the amount of precipitated wax, whereas the capacitor-like contribution in the equivalent circuit model, Q wax, decreases with the amount of precipitated wax. Furthermore, the flow property of waxy oil, such as viscosity, can be related to the conductivity according to the fractional Walden rule. The entire viscosity–conductivity relationship can be divided into three regions, and each segment of the relationship can be fitted by the fractional Walden rule.

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Superhydrophobic MoS2-based multifunctional sponge for recovery and detection of spilled oil

Hwang

Davis

et al. 2020

Current Applied Physics

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Crude Oil Electrical Conductivity Measurements at High Temperatures: Introduction of Apparatus and Methodology

Cited by 13 publications

References 16 publications

Review of Asphaltenes in an Electric Field

Review of Asphaltenes in an Electric Field

Influence of Wax Precipitation on the Impedance Spectroscopy of Waxy Oils

Superhydrophobic MoS2-based multifunctional sponge for recovery and detection of spilled oil

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