Substantiation of analytical dependences for hydraulic calculation of high-viscosity oil transportation

One of the development priorities in oil and gas industry is to maintain gas and oil pipeline networks and develop pipeline-connected gas and oil fields of the Arctic zone of the Russian Federation, a promising region the resource potential of which will not only meet a significant portion of intern...

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Bibliographic Details
Published in:Journal of Mining Institute
Main Authors: Alexander K. Nikolaev, Natalia А. Zaripova
Format: Article in Journal/Newspaper
Language:English
Russian
Published: Saint-Petersburg Mining University 2021
Subjects:
high-viscosity oil
transportation of oil
hydraulic calculation
rheological properties
head losses
pipeline performance
power fluid
Mining engineering. Metallurgy
TN1-997
Arctic
Nadym
Online Access:https://doi.org/10.31897/PMI.2021.6.10
https://doaj.org/article/f89aaae50e09467b85d31c02e905746d
Description
Summary:One of the development priorities in oil and gas industry is to maintain gas and oil pipeline networks and develop pipeline-connected gas and oil fields of the Arctic zone of the Russian Federation, a promising region the resource potential of which will not only meet a significant portion of internal and external demand for various types of raw materials and primary energy carriers, but will also bring great economic benefits to subsoil users and the state. The mineral and raw material centers of the Nadym-Purskiy and Pur-Tazovskskiy oil and gas bearing areas are among the most attractive regions of the Arctic zone. It is necessary to develop a scientifically substantiated approach to improve the methods of oil transportation from the field to the existing pipelines. As it is known, the task of increasing the efficiency of pipeline transportation of high-viscosity oil is inseparably connected with solving problems in the field of thermal and hydraulic calculation of pipeline system. The article presents the substantiation of dependencies for hydraulic calculation of pipelines transporting high-viscosity oil exhibiting complex rheological properties. Based on the laws of hydraulics for non-Newtonian fluids, the formulas for calculating head losses for fluids obeying Ostwald's law are proposed, their relationship to the classical equations of hydraulics is shown. The theoretical substantiation of looping installation for increasing the efficiency of pipeline transportation of high-viscosity oil taking into account the received dependences for power fluid is considered.

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