Optimization of impeller blade number in centrifugal pump for crude oil using Solidworks Flow Simulation

Journal of Engineering Researcher and Lecturer Pub Date : 2023-11-16 DOI:10.58712/jerel.v2i3.116

Muhammad Fikhri Aldio, Waskito Waskito, P. Purwantono, Remon Lapisa

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Abstract

Every type of fluid to be transferred has specific characteristics such as viscosity, density, friction, and others, thus requiring the selection of the appropriate pump type. One of the factors influencing the performance of a centrifugal pump is the number of blades used. This research aims to explore the influence of the number of blades on a centrifugal pump used as a fluid transfer device for crude oil. The study was conducted using the Computational Fluid Dynamics (CFD) method. The analyzed variations of the number of blades included three options, namely centrifugal pumps with 12, 14, and 16 blades. Based on the simulation results conducted using Solidworks Research License 2021-2022 software, it was found that the centrifugal pump with 12 blades exhibited the most optimal performance. The simulation results show uniform flow and pressure around the mid-span plane of the 12-blade impeller. In the case of the 12-blade impeller, the flow thrown by the centrifugal force is concentrated in the middle of the channel towards the outlet, resulting in higher pressure and volume flow rates.

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利用 Solidworks Flow Simulation 优化原油离心泵叶轮叶片数

每种需要输送的流体都有特定的特性，如粘度、密度、摩擦力等，因此需要选择合适的泵型。叶片数量是影响离心泵性能的因素之一。本研究旨在探讨叶片数量对用作原油流体输送设备的离心泵的影响。研究采用了计算流体动力学（CFD）方法。分析的叶片数量变化包括三种方案，即 12、14 和 16 片叶片的离心泵。根据使用 Solidworks Research License 2021-2022 软件得出的模拟结果，12 片叶片的离心泵表现出最佳性能。模拟结果显示，12 片叶片叶轮中跨平面周围的流量和压力均匀。在 12 片叶片叶轮的情况下，由离心力甩出的水流集中在通道中部，流向出口，从而产生较高的压力和体积流量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Engineering Researcher and Lecturer

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