Akira Sadamoto scite author profile

Akira Sadamoto

5Publications

39Citation Statements Received

56Citation Statements Given

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Affiliations

Chubu University, Tsukuba University of Technology

Publications

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Sound-Attenuation Effect of a Partially Shut Rectangular Chamber at the End of an Inner Cylinder, Modeling a Ceiling-Mounted Ventilator

Sadamoto

Shirahama

Ando

2009

JEE

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Some ceiling-mounted ventilators have a sound-attenuating function due to the resonant effect that takes place within a chamber that consists of a rectangular outer cover and a cylindrical fan unit. In order to control the resonant properties in a reactive manner and maximize the sound-attenuation effect of this resonant system, the chamber is separated by a partial shutting plate, called a "separator," located at the end of an inner cylinder-modeling a fan unit-into two spaces that are expected to approximate a Helmholtz resonator with two degrees of freedom. Variations in resonant properties are shown, experimentally obtained by modulating the dimension of the separator. In this model, the second resonance frequency can be widely changed depending on the clearance between the two spaces, without attenuation of the resonant effect. This is meaningful because the second resonance frequency can be shifted into a frequency range that corresponds to the main component of the radiated sound from an actual ventilator. In addition, it is indicated that the resonance frequencies can be approximated by a simple analytical approximation. Furthermore, detailed considerations of sound fields of relatively delicate models concerned are provided using numerical calculation (BEM) and the effectiveness of the chamber is summarized.

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Quantitative Estimate of Sound Attenuation of a Slit-like Duct Expansion Considering Sound Damping in It.

Sadamoto¹,

Murakami²

1998

Trans.JSME(C)

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Sound Attenuation by a Resonant Effect of a Rectangular Box Containing a Cylinder as a Model of a Ceiling-Mounted Ventilator

Sadamoto

Shirahama²,

Tsubakishita

2008

JEE

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A typical ceiling-mounted ventilator consists of a cylindrical fan unit and a rectangular box as an outer cover. When the box is appropriately closed by an orifice plate in front of the fan, the space enclosed by the box and plate acts as a sound resonator. In the present study, the performance and physical aspect of this resonator are investigated experimentally using a model of a rectangular chamber containing an internal cylinder placed in an infinite circular duct. The sound transmission loss of the chamber is measured while varying the chamber length and the inlet length. The experimental model verified the effect of an actual ventilator. Two resonances appear in the frequency range of interest. These resonance frequencies are determined using a relatively simple estimation. In addition, for modulating the chamber property, a thin circular plate or a thin cylindrical pipe, called a "separator," is attached to the chamber. The performance of the separator, which modulates the resonance frequency, is examined. If the orifice plate and the separator are combined and arranged appropriately, they can promote sound attenuation in actual ceiling-mounted ventilators.

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Resonant Properties of a Short Expansion Chamber Symmetrically Located on Opposite Sides of a Rectangular Duct

Sadamoto

Tsubakishita

Murakami

2007

JEE

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A short expansion chamber in a duct acts as a resonator type muffler. The properties of this type of chamber have already been studied in detail by the authors for circular duct-chambers. In this paper, short chambers are applied to rectangular ducts. These chambers consist of two rectangular branches located symmetrically on opposite sides of a rectangular duct. The transmission properties of plane waves through the chambers were examined experimentally. For a very short axial chamber length, the resonant frequency was determined in the same manner as for a side-branch muffler with open end correction. Though considered proportional to depth in circular chambers, it becomes constant in rectangular chambers with fixed axial length, regardless of chamber depth. When the chamber length is close to half of the chamber height (corresponding to the upper limit of resonator-type mufflers), the resonant frequency is close to, but in excess of, the cut-off frequency of the chamber's second resonant mode. The reason for this discrepancy becomes clearer subsequent to examination of the sound field contours calculated using the finite difference method.

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Resonant Properties of Short Expansion Chambers in a Circular Duct: Including Extremely Short Cases and Asymmetric Mode Wave Incidence Cases

Sadamoto

Murakami

2002

Journal of Sound and Vibration

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Akira Sadamoto

Sound-Attenuation Effect of a Partially Shut Rectangular Chamber at the End of an Inner Cylinder, Modeling a Ceiling-Mounted Ventilator

Quantitative Estimate of Sound Attenuation of a Slit-like Duct Expansion Considering Sound Damping in It.

Sound Attenuation by a Resonant Effect of a Rectangular Box Containing a Cylinder as a Model of a Ceiling-Mounted Ventilator

Resonant Properties of a Short Expansion Chamber Symmetrically Located on Opposite Sides of a Rectangular Duct

Resonant Properties of Short Expansion Chambers in a Circular Duct: Including Extremely Short Cases and Asymmetric Mode Wave Incidence Cases

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