Visualized observations of trajectory and dynamics of unsteady tip cloud cavitating vortices in axial flow pump

Abstract: A large-scale perpendicular cavitating vortices (PCVs), at the trailing edge of attached cavitation on the blade suction side near the tip region, has been found recently due to the great impact on performance breakdown in an axial waterjet pump. However, the trajectory and dynamics of this structure have been given scant attention. In this study, some visualized experiments were carried out to elucidate the PCVs for different conditions. The high-speed imaging coupled with numerical computations show that the… Show more

“…The most significant vortex was defined as the perpendicular cavitation vortex (PCV). Zhang et al [26] simulated the formation of a three-dimensional tip leakage vortex cavitation cloud and the periodic collapse of TLV-induced suction-side perpendicular cavitating vortices (SSPCV), which were consistent with the observations reported by Tan et al Shi et al [27] used numerical calculations combined with visualization experiments to reveal the influence of the flow rate, number of blades, and blade tip geometry on the PCV, with particular emphasis on the trajectory and dynamics of the PCV. The SSPCV were generated from the trailing edge of the cloud, resulting in the collapse of the triangular area.…”

“…It is found through visualization experiments that the PCV becomes stronger under off-design conditions [27][28][29], and this is obviously beneficial to observation and research. Therefore, the axial flow pump under the off-design working condition was selected (Q = 0.8 QBEP).…”

“…where F vap and F cond are the empirical coefficients for the mass transfer process with the recommended values of 50 and 0.01, respectively, R b is the typical bubble radius with a value of 1 × 10 −6 m, p v is the saturation vapor pressure, with a value of 3169 Pa, and α nuc is the nucleation site volume fraction with a value of 5 × 10 −4 . These parameters were validated for the simulations of cavitating flows in pumps [26][27][28][29][30]38,42]. The commercial code ANSYS CFX 17.1 was used in this study since it is widely used in engineering applications.…”

“…Additionally, when cavitation occurs, it is difficult to obtain accurate flow information inside a cavity with experimental methods [30][31][32][33]. Numerical simulation can provide detailed and insightful information about the evolution of tip leakage vortex flow and unsteady cavitation flow based on the Reynolds averaged Navier-Stokes (RANS) equations [8][9][10]19,20,22,24,[26][27][28][29][30].…”

“…It is found through visualization experiments that the PCV becomes stronger under off-design conditions [27][28][29], and this is obviously beneficial to observation and research.…”

Analysis of the Formation Mechanism and Evolution of the Perpendicular Cavitation Vortex of Tip Leakage Flow in an Axial-Flow Pump for Off-Design Conditions

“…The most significant vortex was defined as the perpendicular cavitation vortex (PCV). Zhang et al [26] simulated the formation of a three-dimensional tip leakage vortex cavitation cloud and the periodic collapse of TLV-induced suction-side perpendicular cavitating vortices (SSPCV), which were consistent with the observations reported by Tan et al Shi et al [27] used numerical calculations combined with visualization experiments to reveal the influence of the flow rate, number of blades, and blade tip geometry on the PCV, with particular emphasis on the trajectory and dynamics of the PCV. The SSPCV were generated from the trailing edge of the cloud, resulting in the collapse of the triangular area.…”

“…It is found through visualization experiments that the PCV becomes stronger under off-design conditions [27][28][29], and this is obviously beneficial to observation and research. Therefore, the axial flow pump under the off-design working condition was selected (Q = 0.8 QBEP).…”

“…where F vap and F cond are the empirical coefficients for the mass transfer process with the recommended values of 50 and 0.01, respectively, R b is the typical bubble radius with a value of 1 × 10 −6 m, p v is the saturation vapor pressure, with a value of 3169 Pa, and α nuc is the nucleation site volume fraction with a value of 5 × 10 −4 . These parameters were validated for the simulations of cavitating flows in pumps [26][27][28][29][30]38,42]. The commercial code ANSYS CFX 17.1 was used in this study since it is widely used in engineering applications.…”

“…Additionally, when cavitation occurs, it is difficult to obtain accurate flow information inside a cavity with experimental methods [30][31][32][33]. Numerical simulation can provide detailed and insightful information about the evolution of tip leakage vortex flow and unsteady cavitation flow based on the Reynolds averaged Navier-Stokes (RANS) equations [8][9][10]19,20,22,24,[26][27][28][29][30].…”

“…It is found through visualization experiments that the PCV becomes stronger under off-design conditions [27][28][29], and this is obviously beneficial to observation and research.…”

Analysis of the Formation Mechanism and Evolution of the Perpendicular Cavitation Vortex of Tip Leakage Flow in an Axial-Flow Pump for Off-Design Conditions

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