Thomas Vontz scite author profile

Ein neuartiger Inline-Ultraschall-Durchflußmesser für Flüssigkeiten auf Basis helixförmiger Schallführung im Meßrohr ermöglicht eine hohe Meßgenauigkeit sowohl bei laminaren als auch bei turbulenten Strö-mungen. Der Durchflußmesser arbeitet nach dem Mitführprinzip, bei dem die Differenz der Ultraschalllaufzeiten stromauf und stromab ausgewertet wird. Durch in die Meßrohrwand integrierte Reflektoren wird der gesendete Schallstrahl seitlich abgelenkt und nach mehreren Wandreflexionen zum Empfangswandler geführt. Dadurch wird eine näherungsweise querschnittsgewichtete Durchschallung des Rohrquerschnitts und folglich eine weitgehende Unabhängigkeit von der Reynoldszahl erreicht. Ultrasonic flowmeter for industrial applicationsA new inline ultrasonic flowmeter for fluids is based on a helical sound path. High measurement accuracy is maintained independently of the fluid flow profiles. The fluid velocity is derived from the difference in travel time between up and downstream traveling wave packets. The device consists of a tube in which two special reflectors are mounted. These direct ultrasonic waves in such a way, that they subsequently touch the tube walls. This path is the reason for the uniform interrogation of the different flow velocities in the tube, making the measurement independent of profile changes.

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Device for ultrasonic flow measurement

Vontz¹

1998

J. Acoust. Soc. Am.

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Thomas Vontz

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Ultraschall-Durchflußmesser für industrielle Anwendungen

Device for ultrasonic flow measurement

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