Correlation for Flow Boiling Critical Heat Flux in Thin Rectangular Channels

The effect of heated length on critical heat flux (CHF) in thin rectangular channels under atmospheric pressure has been studied. CHF in small channels has been widely studied in the last decades but most of the studies are based on flow in round tubes and number of studies focused on rectangular channels is relatively small. Although basic triggering mechanisms, which lead to CHF in thin rectangular channels, are similar to that of tubes, applicability of thermal hydraulic correlations developed for tubes to rectangular channels are questionable since heat transfer in rectangular channels are affected by the existence of nonheated walls and the noncircular geometry of channel circumference. Several studies of CHF in thin rectangular channels have been reported in relation to thermal hydraulic design of research reactors and neutron source targets and correlations have been proposed, but the studies mostly focus on geometrical conditions of the application of interest and therefore effect of channel parameters exceeding their interest is not fully understood. In his study, CHF data for thin rectangular channels have been collected from previous studies and the effect of heated length on CHF was examined. Existing correlations were verified with data with positive quality outlet flow but none of the correlations successfully reproduced the data for a wide range of heated lengths. A new CHF correlation for quality region applicable to a wide range of heated lengths has been developed based on the collected data.

[1]  W. Zhang,et al.  Correlation of critical heat flux for flow boiling of water in mini-channels , 2006 .

[2]  Y. Sudo,et al.  Study on critical heat flux in rectangular channels heated from one or both sides at pressures ranging from 0.1 to 14 MPa , 1996 .

[3]  S. Kandlikar,et al.  Experimental Study and Model on Critical Heat Flux of Refrigerant-123 and Water in Microchannels , 2008 .

[4]  R. Boyd Subcooled Flow Boiling Critical Heat Flux (CHF) and Its Application to Fusion Energy Components. Part II. A Review of Microconvective, Experimental, and Correlational Aspects , 1985 .

[5]  R. Spall,et al.  A new critical heat-flux correlation for vertical water flow through multiple thin rectangular channels , 2008 .

[6]  Y. Katto General features of CHF of forced convection boiling in uniformly heated rectangular channels , 1981 .

[7]  I. Mudawar,et al.  Measurement and correlation of critical heat flux in two-phase micro-channel heat sinks , 2004 .

[8]  G. Wallis One Dimensional Two-Phase Flow , 1969 .

[9]  Kaichiro Mishima,et al.  Effect of channel geometry on critical heat flux for low pressure water , 1987 .

[10]  Kaichiro Mishima,et al.  Flow regime transition criteria for upward two-phase flow in vertical narrow rectangular channels , 2001 .

[11]  S. B. Englert,et al.  Critical heat flux for low flow boiling in vertical uniformly heated thin rectangular channels , 1993 .

[12]  J. Thome,et al.  Investigation of saturated critical heat flux in a single, uniformly heated microchannel , 2006 .

[13]  H. Akimoto,et al.  Critical heat flux correlation for subcooled boiling flow in narrow channels , 2002 .

[14]  Yasushi Saito,et al.  Heat Transfer Study for Thermal-Hydraulic Design of the Solid-Target of Spallation Neutron Source , 2001 .