Abstract
AbstractThis paper attempts to identify a crude oil (CO) from eight different CO samples with a wide range ofoAPI gravity from 13 to 43 belonging to Upper Assam Basin, India, to formulate the identified CO for pipeline transportation. Studies were conducted to understand the physical, rheological, and viscoelastic properties of the CO samples where physical properties included pour point (PP) andoAPI gravity, the rheological properties included viscosity (η), kinematic viscosity (K.V.), viscosity gravity constant (VGC), shear stress (τ) and shear strain (γʹ) and the viscoelastic properties were elastic modulus (G)' and viscous modulus (G''). This research aims at achieving PP < 9 °C for CO for the ease of flow through pipeline even during the extreme winter season in Assam when the ambient temperature drops below 10oC. SKO in 0%, 5%, 10%, and 15% was added with all CO samples to determine the physical, rheological and viscoelastic properties at 30 °C, since PP of most of the CO samples was near 30 °C. However, the important properties of SKO, i.e. smoke point, flash point and boiling point, were not addressed here as SKO was used for improving flowability through pipeline. Correlation coefficients (CC) were determined using CORREL function in Microsoft Excel to investigate the relationship betweenoAPI gravity and the other properties for all the CO samples to identify the best fit CO. CO3 and CO8 were identified from the relationships as the most desired CO samples and CO3 was obtained as the best fit CO for the pipeline transportation.
Highlights
Identification of crude oil (CO) of Upper Assam Basin was studied to determine the ease of flow through the pipeline
The work was carried out to analyze the effect of Superior kerosene oil (SKO) content on CO flow in a pipeline
The correlation between API and other physical, rheological, and viscoelastic properties has been investigated through several experiments at SKO %
Summary
Identification of crude oil (CO) of Upper Assam Basin was studied to determine the ease of flow through the pipeline. Various authors have investigated the problems encountered during CO flow through pipelines which are related to composition, solid deposition, wax formation, and altering climatic conditions (Jamaluddin et al 2001; Jha et al 2014). Assam CO is mainly from the Barail formation of Upper Assam Basin, which is an intermountain basin, surrounded by fold and thrust belts, being one of the most seismic active areas of the world (Jha et al 2014). The physical properties of Assam CO do not exhibit a consistent trend (Sarmah et al 2017). Rheological, and viscoelastic properties of CO depend on the chemical composition of the oil. The properties of CO play an important role in understanding their flow behavior through the pipeline. The PP of Upper Assam CO shows significant variation which reflects a change in the most abundant group of HCs contained in the CO, and this was observed by Frankle and Cordvy 1967 for the Nigerian CO (Robidas and Gogoi 2020; Frankle and Cordvy 1967)
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