Mathematical Modelling of Wax Deposition in Crude Oil Pipeline Systems

Kök, Mustafa Verşan; Saraçoğlu, Önder

doi:10.2118/64514-ms

Cited by 7 publications

(4 citation statements)

References 14 publications

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“…Other deposition mechanisms may contribute to the formation of deposits, like shear dispersion, Brownian diffusion and gravity settling. However there is a general agreement in considering molecular diffusion to be dominant in the present conditions (see [7]). This is the reason why, in our analysis, we focus on this mechanism only.…”

Section: Description Of the Apparatussupporting

confidence: 61%

Wax diffusivity under given thermal gradient: a mathematical model

Correra

Fasano

Fusi³

et al. 2006

Z Angew Math Mech

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In this paper we describe how to obtain wax diffusivity and solubility in a saturated crude oil using the measurements of solid wax deposit in the experimental apparatus known as cold finger. Assuming that migration of dissolved wax is primarily driven by thermal gradients, mathematical models are derived relating the deposit growth rate to the above mentioned quantities. We will investigate the case in which the oil is not agitated. The stirred case is studied in part II. Comparisons with available experimental data are performed and possible sources of errors are discussed.

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Section: Description Of the Apparatussupporting

confidence: 61%

Wax diffusivity under given thermal gradient: a mathematical model

Correra

Fasano

Fusi³

et al. 2006

Z Angew Math Mech

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“…There exists a huge literature on this subject (see e.g. [5], [7], [20], [29], [38], [41], [45], [56], [60]) aimed at interpreting the results on experimental loops and field experiments.…”

Section: Deposition In Moving Mixturesmentioning

confidence: 99%

Wax Segregation in Oils: A Multiscale Problem

Primicerio

2010

Progress in Industrial Mathematics at ECMI 2008

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“…Wax is a normal alkane group that has 16 or more carbon atoms that will change to crystalline solid substances at about 20 °C [1]. The wax in crude oil is a mixture of normal hydrocarbons with different carbon number distributions which can be identified by using gas chromatography (GC).…”

Section: Introductionmentioning

confidence: 99%

“…Macrocrystalline wax (C 18 -C 36 ) and microcrystalline wax (C 30 -C 60 ) are two different types of wax that can be found in crude oil. Both of them are made up of aligned paraffinic and naphthenic molecules [1]. Macrocrystalline waxes are mainly composed of straight-chain paraffins (n-alkanes) with different chain length while microcrystalline waxes contain high amount of isoparaffins and naphthenes [2].…”

Section: Introductionmentioning

confidence: 99%

Wax and Asphaltene Deposition Tendency of Malaysian Crude Oils

Sulaimon

Yusoff

2015

Icipeg 2014

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Flow assurance is a term generally used to describe the processes that may lead to fluid flow restriction in production, processing and transportation systems, and also the comprehensive management of the processes and operations to ensure effective and efficient production and delivery of oil and gas from the reservoir to the refinery. Often, the flow assurance issues are largely associated with hydrates, organic waxes and asphaltenes deposition due to changes in fluid composition, pressure and temperature conditions. Organic wax starts to precipitate from oil when temperature falls below the cloud point. The focus of this research is to characterize Malaysian crude oils from Dulang, Tapis, Miri, Dubai, and Arab fields to evaluate their tendency to precipitate wax and/or asphaltene. The oils were characterized by conducting SARA analysis with high-performance liquid chromatography (HPLC), while carbon distribution of the oils was determined by gas chromatography mass spectrometry (GC-MS). Differential scanning calorimetry (DSC) and density meter were used to measure the WAT of waxy oils and the colloidal instability index (CII) was calculated to evaluate asphaltene deposition potential. The effect of continuous carbon dioxide (CO 2 ) injection on WAT was also investigated. Results show that crude oils with higher paraffinic content exhibit higher WAT and precipitated wax. Continuous gas injection was found to lower the WAT, thus reducing the risk of wax precipitation. Tapis oil with highest CII (5.05) is the most susceptible to asphaltenes deposition, while Arab oil with CII of 1.21 has the least tendency to cause asphaltenes deposition problems.

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Mathematical Modelling of Wax Deposition in Crude Oil Pipeline Systems

Cited by 7 publications

References 14 publications

Wax diffusivity under given thermal gradient: a mathematical model

Wax diffusivity under given thermal gradient: a mathematical model

Wax Segregation in Oils: A Multiscale Problem

Wax and Asphaltene Deposition Tendency of Malaysian Crude Oils

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