Abstract
Wax precipitation and deposition are serious flow assurance problems. Wax precipitation is investigated simultaneously using centrifugation and high-temperature gas chromatography (C-HTGC) to obtain the amount and component distribution of precipitated wax in artificial waxy oil and diesel at different temperatures. However, the conventional C-HTGC method gives upper measurements of the amount of precipitated wax, as it ignores wax dissolved in crude oil in the centrifugal cake. A modified C-HTGC method was developed to obtain the precipitated solid fraction of crude oil, based on the mass balances of the non-crystallized fraction of the centrifuged cake. The weight, percent and carbon number distribution of precipitated solid wax crystals at different temperatures of artificial oil and 0# diesel were obtained. It was found that wax precipitation characteristics are affected by many factors, including the carbon number distribution of the oil, the sensitivity of alkane crystallization to temperature and the temperature of the waxy oil solution. The average carbon number of alkanes in precipitated wax crystals decreases with the decrease in temperature. The distribution of alkanes in solid wax crystals is roughly the same as that in 0# diesel but slightly heavier than in diesel. Alkanes with high carbon numbers precipitate simultaneously with those with low carbon numbers.
Highlights
Accepted: 21 October 2021With the decrease in onshore and offshore oil and gas resources, the development of global oil and gas resources in deep water will replace strategic regional oil and gas resources [1,2]
Due to the low-temperature environment of the seabed [5], when crude oil is extracted from reservoir flows through submarine mixed-transmission pipelines, the crude oil temperature near the pipe wall drops below the wax appearance temperature (WAT), and wax molecules dissolved in the crude oil near the pipe wall crystallize and deposit on the pipe wall or form an immobile layer due to the free surface energy
The wax precipitation characteristics at different temperatures are affected by many factors, including the temperature of the oil, the carbon number distribution of the paraffin in the artificial oil and the sensitivity of alkane crystallization to temperature
Summary
With the decrease in onshore and offshore oil and gas resources, the development of global oil and gas resources in deep water will replace strategic regional oil and gas resources [1,2]. The differential scanning calorimetry method obtains the wax precipitation at different temperatures by comparing the ratio of accumulated exhalation heat to the enthalpy of phase change of unit mass of wax in crude oil. The centrifugal separation method obtains the wax precipitation amount by weighting the precipitated solid wax crystals separated from liquid crude oil through a high-speed centrifuge. In order to obtain the wax precipitation of crude oil, it is necessary to analyze the filter cake and liquid by using nuclear magnetic resonance or high-temperature gas chromatography technology (HTGC). A modified C-HTGC method was developed, based on the mass balances of the non-crystallized fraction in the centrifugal cake This method was used to measure, at different temperatures, the amount and component distribution of the precipitated solid wax crystals of artificial waxy oil and. The basic data are provided for building a thermodynamic model of wax precipitation
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