Title of article
Predicting local distributions of erosion–corrosion wear sites for the piping in the nuclear power plant using CFD models
Author/Authors
Y.M. Ferng، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
10
From page
304
To page
313
Abstract
The erosion–corrosion (E/C) wear is an essential degradation mechanism for the piping in the nuclear power plant, which results in the oxide mass loss from the inside of piping, the wall thinning, and even the pipe break. The pipe break induced by the E/C wear may cause costly plant repairs and personal injures. The measurement of pipe wall thickness is a useful tool for the power plant to prevent this incident. In this paper, CFD models are proposed to predict the local distributions of E/C wear sites, which include both the two-phase hydrodynamic model and the E/C models. The impacts of centrifugal and gravitational forces on the liquid droplet behaviors within the piping can be reasonably captured by the two-phase model. Coupled with these calculated flow characteristics, the E/C models can predicted the wear site distributions that show satisfactory agreement with the plant measurements. Therefore, the models proposed herein can assist in the pipe wall monitoring program for the nuclear power plant by way of concentrating the measuring point on the possible sites of severe E/C wear for the piping and reducing the measurement labor works.
Journal title
Annals of Nuclear Energy
Serial Year
2008
Journal title
Annals of Nuclear Energy
Record number
406388
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