Parametric Study and Simulation of Horizontal Split Casing Pump by using Computational Fluid Dynamics
Ramesh. S. Gavade1, Suresh M. Sawant2
1Ramesh S. Gavade*, Research Scholar, Department of Mechanical Engineering, RIT Rajaramnagar, Shivaji University, Kolhapur (M.H) India.
2Suresh M. Sawant, Department of Mechanical Engineering, RIT Rajaramnagar, Shivaji University, Kolhapur (M.H) India.
Manuscript received on December 02, 2020. | Revised Manuscript received on December 05, 2020. | Manuscript published on December 30, 2020. | PP: 288-292 | Volume-10 Issue-2, December 2020. | Retrieval Number: 100.1/ijeat.B20001210220 | DOI: 10.35940/ijeat.B2000.1210220
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Abstract: The pump requirement is required to meet the specified performance parameters means the required pressure (head) and flow, using less power. For water pump applications, periodic maintenance is required to check worn parts such as wear ring, shaft sleeves. In such a case the direct separation case pumps are reliable. If a given work point can meet the range of pumps of the available separate cases, it is necessary to develop a new pump and the upgraded pump should be more efficient with the considered power problems. With the help of computational fluid dynamics, the complex internal flow of the pump in the case of equilibrium separation can be accurately predicted, thus facilitating the construction of the pump. Simulation provides the most complete performance testing and important diagnostic details that help the engineer quickly and increase composition. As a result, the company is able to quickly create new designs such as a fully patented water pump with a patent. Pressure suction can be problematic during operation and operation of centrifugal pumps. Such pressure stimulants are traditionally investigated but quantitative analysis techniques allow these effects to be tested. Numerical analysis is done with a multi-reference framework to predict the flow field within the entire pipeline and impeller.
Keywords: Centrifugal pump, CFD, BEP, CAE, RANS model
Scope of the Article: Fluid Dynamics