Cavitation observations, underwater radiated noise measurements and full-scale predictions of the Hydro-Spinna turbine

Rosli, Roslynna; Shi, Weichao; Aktas, Batuhan; Norman, Rosemary; Atlar, Mehmet

doi:10.1016/j.oceaneng.2020.107536

Cited by 8 publications

(2 citation statements)

References 24 publications

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“…Small bubbles collapse has been proved to be the cause of strong shock waves and micro‐jets generation. As observed in the propeller case 10 and turbine case, 11 it can influence the local flow regime. When bubbles are continually collapsing near the wall, impacts on the material surface can be commonly observed 12 .…”

Section: Introductionmentioning

confidence: 79%

Analyses of the spatial and temporal features of the blade pressure‐side cavitation in a pump‐turbine runner in the pump mode

Tao

Jin

et al. 2022

Energy Science & Engineering

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In the pump mode of pump-turbine, cavitation usually happens in runners because of the local pressure drop on the blade leading-edge. At over-load, pressure drop and cavitation occur on the runner blade pressure side. In conventional studies, the spatial and temporal features of the blade pressure-side cavitation are difficult to understand. In this study, the runner blade pressure-side cavitation is studied in a pump-turbine in pump mode at over-load. Local low pressure and cavitation are found on runner blade pressure-side at leading-edge near shroud. Moreover, small-scale gathering cavitation is also observed on the blade suction-side with connecting the large-scale pressure side cavity. As a breakthrough in flow analysis, the pulsation tracking network (PTN) method is applied to track the spatial and temporal features of cavitation. The timeaccumulated intensity, pulsation amplitude, frequency, and phase are analyzed for cavitation based on PTN. The stably-gathering strong-intensity cavitation sites are indicated by time-accumulated intensity. Based on the pulsation amplitude contour, strong pulsating cavitation is found on the edges of the gathering strong cavities. Frequency and phase analyses indicate the cavitation propagation along the blade-to-blade direction and reveal the reason of the connecting cavitation phenomenon. The spatial and temporal features of cavitation is well investigated.

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Section: Introductionmentioning

confidence: 79%

Analyses of the spatial and temporal features of the blade pressure‐side cavitation in a pump‐turbine runner in the pump mode

Tao

Jin

et al. 2022

Energy Science & Engineering

View full text Add to dashboard Cite

show abstract

“…When the flow velocity is large, generally greater than 8m/s, the turbine may cause cavitation and cause physical damage to the turbine [8]. MCTs have a high speed at the tip of the rotor blade and will encounter cavitation.…”

Section: Bmentioning

confidence: 99%

A Mini Review of Research on Blade Fault Detection of Marine Current Turbine

Wang

2021

ACET

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Method of non-stationary random vibration reliability of hydro-turbine generator unit

Li,

Liu,

Cai

et al. 2024

Acta Mech. Sin.

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Cavitation observations, underwater radiated noise measurements and full-scale predictions of the Hydro-Spinna turbine

Cited by 8 publications

References 24 publications

Analyses of the spatial and temporal features of the blade pressure‐side cavitation in a pump‐turbine runner in the pump mode

Analyses of the spatial and temporal features of the blade pressure‐side cavitation in a pump‐turbine runner in the pump mode

A Mini Review of Research on Blade Fault Detection of Marine Current Turbine

Method of non-stationary random vibration reliability of hydro-turbine generator unit

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