Methodology for the Residual Axial Thrust Evaluation in Multistage Centrifugal Pumps

Salvadori, Simone; Marini, Alessandro; Martelli, Francesco

doi:10.1080/19942060.2012.11015420

Cited by 18 publications

(15 citation statements)

References 7 publications

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“…Through the turbulence models developed in recent years, the CFD simulation extends its application field and gives more reliable results. CFD is now widely used in the simulation of hydraulic turbomachines with complex geometry, such as a Francis turbine and a multistage centrifugal pump (Qian et al, 2011;Salvadori et al, 2012). The modern technique now provides numerical results with sufficient accuracy even in the optimization of gas jet pumps where strong shocks occur and the flow is supersonic Hemidi et al, 2009;Fan et al, 2011).…”

Section: Introductionmentioning

confidence: 99%

Investigation of Effects of Scale and Surface Roughness on Efficiency of Water Jet Pumps Using CFD

Aldaş

Yapıcı

2014

Engineering Applications of Computational Fluid Mechanics

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ABSTRACT:Comparing to pumps with moving parts water-jet pumps have a lower efficiency and surface roughness is an important factor for these types of pumps. The aim of this simulation study is to numerically determine how the scaling-up, downscaling and change in the absolute and relative roughness would impact on the energy efficiency of the pumps, using a commercial computational fluid dynamics (CFD) solver ANSYS FLUENT. In order to select the turbulence model that produces the predictions closest to the actual data from four turbulence models, a preliminary study was conducted on a full-scale jet pump. Using the transition SST model, which gives the best results among all the models, the effects of scale and roughness on the performance of the pumps were investigated in the scale range from 1/4 to 20/1. The optimum efficiencies for different area ratios over a wide range were determined according to the scale and size of roughness. It was seen that the efficiency increases significantly up to a given scale size at a constant absolute roughness, while it is generally independent of the scale size at constant relative roughness. The relative efficiency for the area ratio 5.92 reduces to 60% at the relative roughness value of 0.05. Moreover, CFD appears to be the most appropriate tool for model studies of jet pumps.

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Section: Introductionmentioning

confidence: 99%

Investigation of Effects of Scale and Surface Roughness on Efficiency of Water Jet Pumps Using CFD

Aldaş

Yapıcı

2014

Engineering Applications of Computational Fluid Mechanics

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“…Research on centrifugal pumps with front inducer mainly focuses on the internal flow characteristics of the inducer [15][16][17]. Compared with closed impellers, in semi-open centrifugal impellers, the impeller has no front cover, but only a rear cover.…”

Section: Introductionmentioning

confidence: 99%

Numerical analysis of the flow mechanism and axial force characteristics of the cavity in a centrifugal pump with a front inducer

Zhang¹,

Dong²,

Chen³

2020

J. vibroeng.

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At three flow conditions (0.8 , 1.0 , and 1.2), the centrifugal pump cavity with front inducer was expanded at 0°, 90°, 180°, and 270°, and a flow path analysis of the axial cross section at the four angles was performed. This revealed that the circumferential and radial velocities of the liquid in the pump cavity along the same angle at different radii follow an axial and radial variation law to different degrees. The pump cavity center axial liquid velocity component along the radial distribution at different angles was analyzed, and liquid pressure in the pump cavity along the radial distribution was numerically analyzed from different points of view. The mean pump cavity pressure was plotted along the radial distribution curve, and a detailed numerical calculation of the axial force of the centrifugal pump and pump cavity was developed. The influence of flow conditions on the liquid flow mechanism and axial force characteristics in the pump cavity was thoroughly discussed. The results showed that liquid flow in the centrifugal pump cavity with the front inducer is mainly restricted by the main flow of the volute. The liquid eddy current in the pump cavity is mainly concentrated near the volute and the hub at 90° and 180° angles, and the higher the flow rate, the larger is the area of the side vortex of the impeller-cover plate, and the smaller is the area of the side vortex of the pump-cover plate. When the flow rate increases, the flow direction of the eddy current at the same angle in the pump cavity remains unchanged, but when the flow rate becomes too high, the flow direction of the eddy current at the same angle in the pump cavity changes. When the range of circumferential and radial partial velocities decreases, the rotational angular velocity increases, and the pressure decreases. At low flow rate, the larger the area of the volute corresponding to the pump cavity, the higher the speed becomes. The axial force in the pump cavity is the most important factor determining the axial force of the centrifugal pump.

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“…Estos sirven de soporte a los árboles y los ejes que funcionan entre dos elementos, de los cuales uno posee un movimiento relativo respecto al otro que está fijo y resulta de gran importancia su efecto en mantener una película fluida mitigando el contacto entre las superficies (Sun y Jiang, 2011).Por otra parte, los cojinetes son los encargados de garantizar la fiabilidad de explotación mecánica de las bombas sumergibles multietapas al balancear la carga axial residual (Salvadori, Marini y Martelli, 2012). Estos aditivos trabajan sometidos a una alta carga y se provocan desgastes erosivos disminuyendo su vida útil, con el consecuente efecto económico.…”

Section: Introductionunclassified

Cojinete de vidrio Kingsbury diseñado para aumentar la vida útil de bombas sumergibles

Cabrera

Cortés²,

Paumier³

et al. 2019

Rev. ciente. UCSA

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El objetivo de este trabajo fue innovar el diseño de un cojinete Kingsbury de empuje axial para bombas centrífugas verticales sumergibles, utilizando vidrio como material resistente a la fricción entre el disco giratorio y los patines, con la finalidad de aumentar su vida útil y ahorrar intensidad de corriente. Se determinaron los parámetros de explotación como flujo volumétrico que entra en el patín, presión máxima de empuje y coeficiente de carga máxima, entre otros. Para las 124 bombas sumergibles ensayadas, los resultados presentaron un incremento promedio de 3,11 años en su vida útil y un ahorro promedio de 2,5 ampere por bomba cuando operaron con cojinetes de vidrio respecto de los cojinetes convencionales de fábrica. Palabras clave: cojinete Kingsbury, diseño, vidrio, vida útil, bombas sumergibles. ABSTRAC The aim of this work was to innovate the design of an axial thrust Kingsbury bearing for submersible vertical centrifugal pumps, using glass as a friction resistant material between the rotating disc and the skids, in order to increase its useful life and save energy intensity current. The exploitation parameters were determined as volumetric flow entering the skid, maximum thrust pressure and maximum load coefficient, among others. For the 124 submersible pumps tested, the results showed an average increase of 3.11 years in their useful life and an average saving of 2.5 ampere for each pump when they operated with glass bearings with respect to the conventional bearings of fabric.

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Methodology for the Residual Axial Thrust Evaluation in Multistage Centrifugal Pumps

Cited by 18 publications

References 7 publications

Investigation of Effects of Scale and Surface Roughness on Efficiency of Water Jet Pumps Using CFD

Investigation of Effects of Scale and Surface Roughness on Efficiency of Water Jet Pumps Using CFD

Numerical analysis of the flow mechanism and axial force characteristics of the cavity in a centrifugal pump with a front inducer

Cojinete de vidrio Kingsbury diseñado para aumentar la vida útil de bombas sumergibles

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