An Improved One-Dimensional Flow Model for Side Chambers of Centrifugal Pumps Considering the Blade Slip Factor

Gu, Yuzhou; Li, Jiaxv; Wang, Peng; Cheng, Li; Qiu, Yong; Wang, Chuan; Si, Qiaorui

doi:10.1115/1.4054138

Cited by 13 publications

(6 citation statements)

References 26 publications

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“…64%Qbep. A non-slip boundary condition was applied to the walls [19,20]. The SIMPLEC algorithm was chosen to achieve the coupling of velocity and pressure equations.…”

Section: Simulation Set-upmentioning

confidence: 99%

Study of the effects of modified draft tube with inclined conical diffuser on draft tube and upstream region

Zhou,

Huang,

et al. 2024

J. Phys.: Conf. Ser.

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Various countermeasures including geometry optimization have been proposed and proved to have a huge impact on flow filed within the draft tube in order to mitigate the vortex rope and the induced pressure fluctuations for Francis turbine under part load operation. However, the effect of these approaches on the hydro-dynamics in upstream region still remains unclear, which is of great significance for the overall performance of the unit. This study aims to explore the influences of modified draft tube with inclined conical diffuser on the pressure fluctuations in whole flow passage. The results reveal that Generation-1 and Generation-2 draft tubes are effective in alleviating pressure fluctuations resided in the draft tube, but the former one would trigger a low-frequency pressure fluctuation with higher amplitude in the runner zone. In addition, the modified draft tube has a very limited effect on the high-frequency pressure fluctuations in the guide vane and vaneless areas. To eliminate the adverse effect of inclined conical diffuser, a design with a transitional section is put forward to smoothly connect the runner zone and inclined conical diffuser. This further developed Generation-2 draft tube presents a reasonably good performance in terms of improving flow stabilities, i.e. alleviating the pressure fluctuations not only in draft tube but also in upstream region such as runner zone. This study provides reference for obtaining a better mitigating effect on pressure fluctuations in the whole turbine flow passage.

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“…64%Qbep. A non-slip boundary condition was applied to the walls [19,20]. The SIMPLEC algorithm was chosen to achieve the coupling of velocity and pressure equations.…”

Section: Simulation Set-upmentioning

confidence: 99%

Study of the effects of modified draft tube with inclined conical diffuser on draft tube and upstream region

Zhou,

Huang,

et al. 2024

J. Phys.: Conf. Ser.

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“…Set the impeller blades and back and forward cover plates to the rotating wall; the values are 0 rev/min. Set the shear condition of the static wall to a no-slip wall [28].…”

Section: Determination Of the Turbulence Model And Boundarymentioning

confidence: 99%

“…Bringing the results of the orthogonal tests into equations (26) to (28) in turn, the weights of efciency and head were obtained as 60.08% and 39.92%. Trough the TOPSIS method, we ranked the 16 sets of experimental results according to their proximity to the idealized target to evaluate their relative merits.…”

Section: Multiobjective Optimization Based Onmentioning

confidence: 99%

Performance Optimization of Slotted Blades for Low-Specific Speed Centrifugal Pumps

Tang

2023

Advances in Civil Engineering

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Centrifugal pumps are widely used for the transport of fluids, but low-specific-speed centrifugal pumps widely have problems with serious backflow and low efficiency. In this paper, a low-specific-speed centrifugal pump with a specific speed of 55 is used as a research object. By combining numerical simulation and orthogonal experiment, the pressure distribution and velocity distribution of the flow channel are analyzed, the priority of each geometric factor for slits on pump performance is determined, the geometric parameter structure of the slotted blade is optimized by entropy weight on TOPSIS, the optimal impeller slit solution is obtained. The results show that with a balance of head and efficiency, the order of influence of the factors is: slit center width b > diameter of slit D > shrinkage ratio of slit f > depth of slit h > deflection angle of slit β . The optimal combination of slit geometry parameters is: slit center width is 3 m m , diameter of the slit is 200 m m , shrinkage ratio of the slit is 0.5, depth of the slit is 6 m m , and the deflection angle of the slit is 20°. Through ANSYS FLUENT simulation and experiment of closed pump experiment system, confirmed that hydraulic performance is improved.

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“…The above method is easy to apply to bearings with simple shapes, as inertial and radial flow are ignored. In contrast, commercial CFD software is gradually becoming an important basis for predicting the static properties of bearings [33] because of the advantages of predicting three-dimensional flow [34][35][36][37] and its applicability to complex geometries [38][39][40][41]. It should be emphasized that the flow in the gap between two concentric cylindrical surfaces is known as Taylor-Couette flow.…”

Section: Introductionmentioning

confidence: 99%

A Three-Dimensional Slip Velocity Model for Water-Lubricated Hydrodynamic Journal Bearings

Cheng²,

Sun³

et al. 2022

JMSE

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Hydrodynamic journal bearings, coated with polytetrafluoroethylene (PTFE) and lubricated by water, have been widely used in ships and large-scale pumps, and the function is to maintain the stability of rotor system. However, slip velocity exists on the PTFE-coated surface, whose effect is still an open question. This study aims to investigate the static characteristics of water-lubricated hydrodynamic journal bearings under three-dimensional slip velocity boundary conditions. Firstly, under the non-slip boundary condition, the CFD (computational fluid dynamics) method with ANSYS Fluent is verified based on the Reynolds lubrication equation and the open literature. Then, a three-dimensional slip velocity equation that is based on the Navier slip velocity boundary condition is proposed and embedded into Fluent. Finally, the effects of slip length on the static characteristics are analyzed. Under the same eccentricity ratio, with the increase in slip length, the load capacity decreases due to the decrease of the pressure circumferential gradient, and the friction power decreases. Under the same eccentricity ratio and the same slip length, with the increase in the attitude angle, the load capacity and friction power increase. However, under the non-slip boundary condition, the effects of attitude angle on the load capacity and friction power are insignificant. This paper could provide a reference for studying slip velocity in the hydrodynamic journal bearing.

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An Improved One-Dimensional Flow Model for Side Chambers of Centrifugal Pumps Considering the Blade Slip Factor

Cited by 13 publications

References 26 publications

Study of the effects of modified draft tube with inclined conical diffuser on draft tube and upstream region

Study of the effects of modified draft tube with inclined conical diffuser on draft tube and upstream region

Performance Optimization of Slotted Blades for Low-Specific Speed Centrifugal Pumps

A Three-Dimensional Slip Velocity Model for Water-Lubricated Hydrodynamic Journal Bearings

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