Article: Three-dimensional modelling of oil sand multiphase flow in at face slurry system Journal: International Journal of Oil, Gas and Coal Technology (IJOGCT) 2018 Vol.19 No.1 pp.35 - 58 Abstract: Optimisation of both hydraulic transportation efficiency and production costs are a necessity in the extraction of Athabasca oil sand deposits. There is currently a desire to extend hydraulic transport systems to production faces in oil sand mines using a mobile at face slurry system (AFSS). AFSS consists of multiple pipelines connected with flexible joints, a system which creates slurrified minerals from the mining faces for transportation to processing plants. This paper develops mathematic models governing friction loss associated with AFSS. Modelling of slurry flow is conducted using ANSYS-FLUENT. An arrangement of flexible pipe loops imitating the AFSS was set up to test the accuracy of modelling results. For slurry with a specific gravity of 1.44, solid volume fraction of 0.27, and a velocity of 4 m/s, the simulated pressure gradient associated with an AFSS with a diameter of 0.762 m is 220 Pa/m, compared to 158 Pa/m for the existing stationary system. [Received: March 15, 2016; Accepted: July 27, 2016] Inderscience Publishers - linking academia, business and industry through research

Title: Three-dimensional modelling of oil sand multiphase flow in at face slurry system

Authors: Enzu Zheng; Jozef Szymanski; Chaoshi Hu

Addresses: School of Mining and Petroleum Engineering, University of Alberta, 3-047 Natural Resources, Engineering Facility, Edmonton, Alberta, T6G 2W2, Canada ' School of Mining and Petroleum Engineering, University of Alberta, 3-047 Natural Resources, Engineering Facility, Edmonton, Alberta, T6G 2W2, Canada ' School of Mining and Petroleum Engineering, University of Alberta, 3-047 Natural Resources, Engineering Facility, Edmonton, Alberta, T6G 2W2, Canada

Abstract: Optimisation of both hydraulic transportation efficiency and production costs are a necessity in the extraction of Athabasca oil sand deposits. There is currently a desire to extend hydraulic transport systems to production faces in oil sand mines using a mobile at face slurry system (AFSS). AFSS consists of multiple pipelines connected with flexible joints, a system which creates slurrified minerals from the mining faces for transportation to processing plants. This paper develops mathematic models governing friction loss associated with AFSS. Modelling of slurry flow is conducted using ANSYS-FLUENT. An arrangement of flexible pipe loops imitating the AFSS was set up to test the accuracy of modelling results. For slurry with a specific gravity of 1.44, solid volume fraction of 0.27, and a velocity of 4 m/s, the simulated pressure gradient associated with an AFSS with a diameter of 0.762 m is 220 Pa/m, compared to 158 Pa/m for the existing stationary system. [Received: March 15, 2016; Accepted: July 27, 2016]

Keywords: oil sand; computational fluid dynamics; CFD; multiphase flow; flexible pipeline.

DOI: 10.1504/IJOGCT.2018.093957

International Journal of Oil, Gas and Coal Technology, 2018 Vol.19 No.1, pp.35 - 58

Received: 16 Mar 2016
Accepted: 27 Jul 2016
Published online: 10 Aug 2018 *

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Title: Three-dimensional modelling of oil sand multiphase flow in at face slurry system

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