吸口直径变化对离心泵性能的影响

D. V. V Kallon, M. E. Matlakala, K.F. Nkoana, B.D. Mafu, S. Mkhwanazi
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引用次数: 5

摘要

离心泵的性能下降是因为泵的吸力不允许流体在进入泵时顺利流动。泵内的高压引起空化,这是因为高压不够。这可能导致泵的部件断裂。本课题的目的是设计一种离心泵,并建立一个模型来预测离心泵在吸力处所需的流量,以保持离心泵的有效运行。根据应用标准选择合适的材料。对于大多数水和其他非腐蚀性应用,灰口铸铁材料可以满足泵的叶轮和外壳的这些标准。确定了设计约束和限制。选择边界条件。在SolidWorks上完成泵总成的设计。SolidWorks得到的结果在ANSYS中进行解释和模拟,以确定高应力点和变形。采用不同的吸力直径尺寸进行模拟,尺寸分别为55mm、65mm和75mm。进行了理论计算,并与ANSYS计算结果进行了比较。结果表明,增大抽吸直径尺寸有助于限制空化现象和泵的失效。
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Effect of Suction Diameter Variations on Performance Of Centrifugal Pump
The The performance of the centrifugal pump drops because the suction of the pump does not allow a smooth flow of the fluid as the fluid enters the pump. The high pressure in the pump causes cavitation, and this is because the high pressure is not enough. This can result in the component of the pump breaking. The purpose of the project is to design a centrifugal pump and develop a model that can predict the amount of flow required at the suction to keep the centrifugal pump running efficiently. Suitable material was chosen based on application criteria. For most water and other noncorrosive services, grey cast iron material satisfies these criteria for the impeller and the casing of the pump. Design constraints and limitations were identified. Boundary conditions were selected. Design of the pump assembly was done on SolidWorks. Results obtained from SolidWorks were interpreted and simulated in ANSYS to determine high stress points and deformation. Different suction diameter sizes were used to simulate, the sizes were 55mm, 65mm and 75mm. Theoretical calculations were done and the results were compared with the results obtained from ANSYS. From all the results, it is found that an increase in suction diameter size can help limit cavitation and pump failure.
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