A magnetic flowmeter with conducting pipe wall.

H. Yamasaki; S. Honda; T. J. Chin; C. Akiyama

A magnetic flowmeter with conducting pipe wall.

H. Yamasaki, S. Honda, T. J. Chin, C. Akiyama

Department of Applied Physics and Physico-Informatics

Research output: Contribution to journal › Article

1 Citation (Scopus)

Abstract

In the internal pipe wall of magnetic flowmeters should be nonconductive to prevent generated electromotive force from short circuiting. Usually inside of metallic pipe is lined by insulating material. The lining material limits applicable temperature range of measured fluid and also reliability of meter. The objectives of this investigation are to eliminate the lining and to improve reliability and performance of magnetic flowmeter. In this paper theoretical analysis and experimental results are described. (from English abstract)

Original language	English
Pages (from-to)	394-399
Number of pages	6
Journal	TRANS. SOC. INSTRUM. & CONTROL ENGRS. JAPAN
Volume	19
Issue number	5 , 1983
Publication status	Published - 1983 Jan 1

ASJC Scopus subject areas

Engineering(all)

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Yamasaki, H., Honda, S., Chin, T. J., & Akiyama, C. (1983). A magnetic flowmeter with conducting pipe wall. TRANS. SOC. INSTRUM. & CONTROL ENGRS. JAPAN, 19(5 , 1983), 394-399.

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N2 - In the internal pipe wall of magnetic flowmeters should be nonconductive to prevent generated electromotive force from short circuiting. Usually inside of metallic pipe is lined by insulating material. The lining material limits applicable temperature range of measured fluid and also reliability of meter. The objectives of this investigation are to eliminate the lining and to improve reliability and performance of magnetic flowmeter. In this paper theoretical analysis and experimental results are described. (from English abstract)

AB - In the internal pipe wall of magnetic flowmeters should be nonconductive to prevent generated electromotive force from short circuiting. Usually inside of metallic pipe is lined by insulating material. The lining material limits applicable temperature range of measured fluid and also reliability of meter. The objectives of this investigation are to eliminate the lining and to improve reliability and performance of magnetic flowmeter. In this paper theoretical analysis and experimental results are described. (from English abstract)

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