On the Suitability of the Low Mach Number Assumption in the Modeling of the Damage Induced by Pressure Transients in Piping Systems-Reference-Cited by-同舟云学术

On the Suitability of the Low Mach Number Assumption in the Modeling of the Damage Induced by Pressure Transients in Piping Systems

Published:1999-03-01 Issue:1 Volume:121 Page:112-117
ISSN:0098-2202
Container-title:Journal of Fluids Engineering
language:en
Short-container-title:

Author:

Freitas Rachid Felipe B.¹,Costa Mattos Heraldo S.¹

Affiliation:

1. Laboratory of Theretical and Applied Mechanics, Department of Mechanical Engineering, Universidade Federal Fluminense, 24.210-240 Nitero´i RJ, Brazil

Abstract

One-dimensional models for predicting the damage induced by pressure transients in piping systems conveying liquids have been proposed and analysed recently. However, such works have been concerned mainly with the adequacy of the constitutive equations adopted for different pipe materials and with the numerical techniques used for approximating the solution of the resulting mathematical problems. In the present paper the suitability of the simplifying low Mach number assumption adopted in the modeling is investigated. The analysis is carried out based on the eigenvalue problem associated to the governing equations, without appealing to any specific mechanical behavior of the pipe material. Numerical results obtained for the most used pipe materials show that this simplifying assumption is adequate for metallic tubes, but may fail when plastic tubes are considered.

Publisher

ASME International

Subject

Mechanical Engineering

Link

http://asmedigitalcollection.asme.org/fluidsengineering/article-pdf/121/1/112/5677378/112_1.pdf

Reference16 articles.

1. A-Moneim M. T. , and ChangY. W., 1978, “Comparison of ICEPEL Code Predictions with Straight Flexible Pipe Experiments,” Nuclear Engineering Design, Vol. 49, pp. 187–196.

2. A-Moneim M. T. , and ChangY. W., 1979, “Comparison of ICEPEL Predictions with Single-Elbow Flexible Piping System Experiments,” ASME Journal of Pressure Vessel Technology, Vol. 101, pp. 142–148.

3. Burr A. F. , HildF., and LeckieF. A., 1995, “Micro-mechanics and Continuum Damage Mechanics,” Archives of Applied Mechanics, Vol. 65, pp. 437–456.

4. De Vree J. H. P. , BrekelmansW. A. M., and van GilsM. A. J., 1995, “Comparison of Nonlocal Approaches in Continuum Damage Mechanics,” Computers & Structures, Vol. 55, pp. 581–588.

5. Freitas Rachid, F. B., and Stuckenbruck, S., 1990, “Transients in Liquid and Structure in Viscoelastic Pipes,” BHRA Proc. of the 6th International Conference on Pressure Surges, pp. 69–84, Cambridge, UK.

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