H. Kato scite author profile

Wake flows have significant effects on vehicles, buildings, and other objects encountered in daily life. Thus, wake control techniques are of practical importance and have been extensively investigated. One passive wake-control technique is to create a vent on a bluff body, which has been determined to be effective for wake control on a circular cylinder but has not been sufficiently studied for wake control on a sphere. Therefore, this study examined the effect of the vent angle on the characteristics of the wake of a sphere. A sphere with a uniaxial through-hole (vent) was placed in a uniform flow, and the vent angle was varied in the streamwise direction. The Strouhal number in the high-frequency and low-frequency modes was examined. The flow field in the sphere wake varied with respect to the vent angle. Three frequency modes (high, low, and very low), the occurrence of a switching phenomenon, wherein the velocity fluctuated between positive and negative values, and high-frequency energy injection by the vent were observed. In addition, a high dominant frequency was observed only in the positive velocity fluctuation region.

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Falling behavior of hollow particle with uniaxial through–hole: A case study using experiments and numerical simulations

Takamure

Tanaka

Kato

et al. 2021

Powder Technology

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Wake characteristics of sphere with circular uniaxial through-hole arranged perpendicularly to streamwise direction

2023

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Collection of oil mist using a baffle plate-type mist trap

Takamure

Uchiyama

Ando

et al. 2023

Applications in Engineering Science

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H. Kato

Pressure Response during Filtration and Oxidation in Diesel Particulate Filter

Characteristics of vortex shedding in the wake of a sphere with a uniaxial through-hole

Falling behavior of hollow particle with uniaxial through–hole: A case study using experiments and numerical simulations

Wake characteristics of sphere with circular uniaxial through-hole arranged perpendicularly to streamwise direction

Collection of oil mist using a baffle plate-type mist trap

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