论文信息 - An Experimental Model Study of Steam Generator Tube Loading During a Sudden Depressurization

An Experimental Model Study of Steam Generator Tube Loading During a Sudden Depressurization

This paper presents the results of an experimental model study of a postulated Main Steam Line Break (MSLB) accident on the transient loading of steam generator tubes in a nuclear plant. The problem involves complex transient two-phase flow dynamics and fluid-structural loading processes. A better understanding of this phenomenon will permit the development of improved design tools to ensure steam generator safety. The pressure and temperature were measured upstream and downstream of the tube bundle and the transient tube loads were directly measured using dynamic piezoelectric load cells. High- speed videos were taken to observe and better understand the flow phenomena causing the tube loading. The working fluid was R-134a and the tube bundle was a normal triangular array with a pitch ratio of 1.36. The flow through the bundle was choked for the majority of the transient. The transient tube loading is explained in terms of the associated fluid mechanics. An empirical model is developed that enables the prediction of the maximum tube loads once the pressure drop is known.

Jovica R. Riznic | David S. Weaver | Ouajih Hamouda

[1] Jovica R. Riznic,et al. Instrumentation Development and Validation for an Experimental Two-Phase Blowdown Facility , 2016 .

[2] Frederick J. Moody,et al. Transient Thermal-Hydraulic Responses of the Nuclear Steam Generator Secondary Side to a Main Steam Line Break , 2015 .

[3] John R. Thome,et al. Two-Phase Flow and Heat Transfer across Horizontal Tube Bundles‐A Review , 2007 .

[4] J. Taborek,et al. Critical Review of Correlations for Predicting Two-Phase Flow Pressure Drop across Tube Banks , 1980 .

[5] H. Martin,et al. The generalized Lévêque equation and its practical use for the prediction of heat and mass transfer rates from pressure drop , 2002 .

[6] S. P. Kalra,et al. Thermal hydraulics of steam line break transients in thermal reactors-simulation experiments , 1980 .

[7] X. Sireta. Experimental and theoretical study of the blowdown of the secondary side of a steam generator , 1979 .

[8] A. K. Singhal,et al. ATHOS: a computer program for thermal-hydraulic analysis of steam generators. Volume 3. User's manual. [PWR] , 1982 .

[9] N. Mureithi,et al. Drag Coefficient and Two-Phase Friction Multiplier on Tube Bundles Subjected to Two-Phase Cross-Flow , 2013 .

[10] O. G. Martynenko,et al. Handbook of hydraulic resistance , 1986 .

[11] Jovica R. Riznic,et al. An Experimental Study of Steam Generator Tube Loading During Blowdown , 2015 .

[12] Peter B. Whalley,et al. Boiling, Condensation, and Gas-Liquid Flow , 1987 .