Effects of change in Frequency of Ultrasonic Vibrations on Heat Transfer

The heat transfer coefficients during natural convection of water on a downward-facing horizontal surface and that on a vertical surface were measured under the influence of ultrasonic vibration. The multi-type oscillator used in this experiment was able to irradiate in three different frequencies,...

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Veröffentlicht in:	Nihon Kikai Gakkai rombunshuu. B hen 1998/06/25, Vol.64(622), pp.1832-1838
Hauptverfasser:	NOMURA, Shinfuku, MURAKAMI, Koichi, AOYAMA, Yoshiyuki, OCHI, Junji
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	Natural Convection
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creator	NOMURA, Shinfuku MURAKAMI, Koichi AOYAMA, Yoshiyuki OCHI, Junji
description	The heat transfer coefficients during natural convection of water on a downward-facing horizontal surface and that on a vertical surface were measured under the influence of ultrasonic vibration. The multi-type oscillator used in this experiment was able to irradiate in three different frequencies, 28, 45 and 100 kHz, not only continuously, but also intermittently. When ultrasonic vibrations of 28 and 45 kHz were applied to water, cavitation bubbles were generated and the heat transfer coefficient increased remarkably. When an ultrasonic vibration of 100 kHz was applied, the increase in the heat transfer coefficient was small compared to those at 28 and 45 kHz. At 100 kHz, cavitation was not observed at this low ultrasonic power. The uniformity of heat transfer, which depends on the profile of the standing wave by the ultrasonic vibration, was improved by the method of repeatedly applying multi-vibration.
doi_str_mv	10.1299/kikaib.64.1832
format	Article
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The multi-type oscillator used in this experiment was able to irradiate in three different frequencies, 28, 45 and 100 kHz, not only continuously, but also intermittently. When ultrasonic vibrations of 28 and 45 kHz were applied to water, cavitation bubbles were generated and the heat transfer coefficient increased remarkably. When an ultrasonic vibration of 100 kHz was applied, the increase in the heat transfer coefficient was small compared to those at 28 and 45 kHz. At 100 kHz, cavitation was not observed at this low ultrasonic power. 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issn	0387-5016 1884-8346
language	eng ; jpn
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source	Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; J-STAGE (Japan Science & Technology Information Aggregator, Electronic) Freely Available Titles - Japanese
subjects	Natural Convection
title	Effects of change in Frequency of Ultrasonic Vibrations on Heat Transfer
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