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Title: Sound generation by a centrifugal pump at blade passing frequency

Abstract

This paper reports the results of an experimental study of the pressure pulsations produced by a centrifugal volute pump at its blade passing frequency and their amplification by acoustic resonance in a connected piping system. Detailed measurements were made of the pressure fluctuations in the piping as a function of pump speed and flow rate. A semi-empirical model was used to separate acoustic standing waves from hydraulic pressure fluctuations. The effects of modifying the cut-water geometry were also studied, including the use of flow visualization to observe the flow behavior at the cut-water. The results suggest that the pump may act as an acoustic pressure or velocity source, depending on the flow rate. At conditions of acoustic resonance, the pump acted as an open termination of the piping, i.e., as a node in the acoustic pressure standing waves. Rounding the cut-water had the effect of reducing the amplitude of acoustic resonance, apparently because of the ability of the stagnation point to move and thereby reduce the vorticity generated. A notable example of this acoustic resonance in the Primary Heat Transport (PHT) system at Ontario Hydro`s Darlington nuclear power station.

Authors:
 [1];  [2]
+ Show Author Affiliations
  1. Acres International Ltd., Niagara Falls, Ontario (Canada)
  2. McMaster Univ., Hamilton, Ontario (Canada). Dept. of Mechanical Engineering
Publication Date:
OSTI Identifier:
403414
Report Number(s):
CONF-960706-
ISBN 0-7918-1775-X; TRN: 97:000280
Resource Type:
Book
Resource Relation:
Conference: American Society of Mechanical Engineers (ASME) pressure vessels and piping conference, Montreal (Canada), 21-26 Jul 1996; Other Information: PBD: 1996; Related Information: Is Part Of Flow-induced vibration -- 1996. PVP-Volume 328; Pettigrew, M.J. [ed.] [Atomic Energy of Canada Limited, Chalk River, Ontario (Canada)]; Paidoussis, M.P. [ed.] [McGill Univ., Montreal, Quebec (Canada)]; Weaver, D.S. [ed.] [McMaster Univ., Hamilton, Ontario (Canada)]; Au-Yang, M.K. [ed.] [Framatome Technologies, Lynchburg, VA (United States)]; PB: 498 p.
Country of Publication:
United States
Language:
English
Subject:
21 NUCLEAR POWER REACTORS AND ASSOCIATED PLANTS; DARLINGTON-1 REACTOR; CENTRIFUGAL PUMPS; DARLINGTON-2 REACTOR; DARLINGTON-3 REACTOR; DARLINGTON-4 REACTOR; SOUND WAVES; EXPERIMENTAL DATA; MATHEMATICAL MODELS; WAVE PROPAGATION; STANDING WAVES; MECHANICAL VIBRATIONS

Citation Formats

Morgenroth, M, and Weaver, D S. Sound generation by a centrifugal pump at blade passing frequency. United States: N. p., 1996. Web.
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Morgenroth, M, & Weaver, D S. Sound generation by a centrifugal pump at blade passing frequency. United States.
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Morgenroth, M, and Weaver, D S. 1996. "Sound generation by a centrifugal pump at blade passing frequency". United States.
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@article{osti_403414,
title = {Sound generation by a centrifugal pump at blade passing frequency},
author = {Morgenroth, M and Weaver, D S},
abstractNote = {This paper reports the results of an experimental study of the pressure pulsations produced by a centrifugal volute pump at its blade passing frequency and their amplification by acoustic resonance in a connected piping system. Detailed measurements were made of the pressure fluctuations in the piping as a function of pump speed and flow rate. A semi-empirical model was used to separate acoustic standing waves from hydraulic pressure fluctuations. The effects of modifying the cut-water geometry were also studied, including the use of flow visualization to observe the flow behavior at the cut-water. The results suggest that the pump may act as an acoustic pressure or velocity source, depending on the flow rate. At conditions of acoustic resonance, the pump acted as an open termination of the piping, i.e., as a node in the acoustic pressure standing waves. Rounding the cut-water had the effect of reducing the amplitude of acoustic resonance, apparently because of the ability of the stagnation point to move and thereby reduce the vorticity generated. A notable example of this acoustic resonance in the Primary Heat Transport (PHT) system at Ontario Hydro`s Darlington nuclear power station.},
doi = {},
url = {https://www.osti.gov/biblio/403414}, journal = {},
number = ,
volume = ,
place = {United States},
year = {Sun Dec 01 00:00:00 EST 1996},
month = {Sun Dec 01 00:00:00 EST 1996}
}
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