Browse > Article
http://dx.doi.org/10.3795/KSME-B.2017.41.1.001

Development of an Empirical Correlation to Evaluate the Bundle Effect in Saturated Pool Boiling of Water  

Kang, Myeong-Gie (Dept. of Mechanical Engineering Education, Andong Nat'l Univ.)
Publication Information
Transactions of the Korean Society of Mechanical Engineers B / v.41, no.1, 2017 , pp. 1-8 More about this Journal
Abstract
A new empirical correlation was developed for application to the tandem tubes for saturated water at atmospheric pressure. The correlation was obtained by using experimental data and the least square method to calculate the bundle effect. A statistical analysis was performed to identify the suitability of the correlation. The correlation predicted the experimental data within ${\pm}8%$. The applicable ranges of the correlation correspond to a tube pitch of 28.5~114 mm, an elevation angle of $0^{\circ}{\sim}90^{\circ}$, an inclination angle of $0^{\circ}{\sim}90^{\circ}$, and heat fluxes of $0{\sim}120kW/m^2$ of the lower and upper tubes.
Keywords
Pool Boiling; Tandem Tubes; Elevation Angle; Pitch; Inclination; Correlation;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Schaffrath, A., Hicken, E. F., Jaegers, H. and Prasser, H.M., 1999, "Operation Conditions of the Emergency Condenser of the SWR 1000," Nuclear Engineering and Design, Vol. 188, pp. 303-318.   DOI
2 Kang, M. G., 2014, "Measurement of the Average Pool Boiling Heat Transfer Coefficient on a Near Horizontal Tube," Transactions of the KSME B, Vol. 38, pp. 81-88.   DOI
3 Aprin, L., Mercier, P. and Tadrist, L., 2011, "Local Heat Transfer Analysis for Boiling of Hydrocarbons in Complex Geometries: A New Approach for Heat Transfer Prediction in Staggered Tube Bundle," Int. J. Heat Mass Transfer, Vol. 54, pp. 4203-4219.   DOI
4 Swain, A. and Das, M. K., 2014, "A Review on Saturated Boiling of Liquids on Tube Bundles," Heat Mass Transfer, Vol. 50, pp. 617-637.   DOI
5 Liu, Z.-H. and Qiu, Y.-H., 2006, "Boiling Heat Transfer Enhancement of Water on Tubes in Compact In-Line Bundles," Heat Mass Transfer, Vol. 42, pp. 248-254.   DOI
6 Ribatski, G., Jabardo, J. and Silva, E., 2008, "Modeling and Experimental Study of Nucleate Boiling on a Vertical Array of Horizontal Plain Tubes," Applied Thermal and Fluid Science, Vol. 32, pp. 1530-1537.   DOI
7 Gupta, A., 2005, "Enhancement of Boiling Heat Transfer in a $5{\times}3$ Tube Bundle," Int. J. Heat Mass Transfer, Vol. 48, pp. 3763-3772.   DOI
8 Gupta, A., Saini, J. S. and Varma, H. K., 1995, "Boiling Heat Transfer in Small Horizontal Tube Bundles at Low Cross-flow Velocities," Int. J. Heat Mass Transfer, Vol. 38, pp. 599-605.   DOI
9 Hahne, E. and Muller, J., 1983, "Boiling on a Finned Tube and a Finned Tube Bundle," Int. J. Heat Mass Transfer, Vol. 26, pp. 849-859.   DOI
10 Hahne, E., Chen, Q.-R. and Windisch, R., 1991, "Pool Boiling Heat Transfer on Finned Tubes -an Experimental and Theoretical Study," Int. J. Heat Mass Transfer, Vol. 34, pp. 2071-2079.   DOI
11 Nelson, P. J. and Burnside, B. M., 1985, "Boiling the Immiscible Water/n-nonane System from a Tube Bundle," Int. J. Heat Mass Transfer, Vol. 28, pp. 1257-1267.   DOI
12 Hsieh, S.-S., Huang, G.-Z. and Tsai, H.-H., 2003, "Nucleate Pool Boiling Characteristics from Coated Tube Bundles in Saturated R-134a," Int. J. Heat Mass Transfer, Vol. 46, pp. 1223-1239.   DOI
13 Liu, Z.-H. and Qiu, Y.-H., 2002, "Enhanced Boiling Heat Transfer in Restricted Spaces of a Compact Tube Bundle with Enhanced Tubes," Applied Thermal Engineering, Vol. 22, pp. 1931-1941.   DOI
14 Cornwell, K. and Schuller, R. B., 1982, "A Study of Boiling Outside a Tube Bundle Using High Speed Photography," Int. J. Heat Mass Transfer, Vol. 25, pp. 683-690.   DOI
15 Memory, S. B., Akcasayar, N., Eraydin, H. and Marto, P. J., 1995, "Nucleate Pool Boiling of R-114 and R-114-oil Mixtures from Smooth and Enhanced Surfaces-II. Tube Bundles," Int. J. Heat Mass Transfer, Vol. 38, pp. 1363-1376.   DOI
16 Roser, R., Thonon, B. and Mercier, P., 1999, "Experimental Investigation on Boiling of n-pentane Across a Horizontal Tube Bundle: Two-phase Flow and Heat Transfer Characteristics," International Journal of Refrigeration, Vol. 22 , pp. 536-547.   DOI
17 Malayeri, M. R., Muller-Steinhagen, H. and Bartlett, T. H., 2005, "Fouling of Tube Bundles under Pool Boiling Conditions," Chemical Engineering Science, Vol. 60, pp. 1503-1513.   DOI
18 Memory, S. B., Chilman, S. V. and Marto, P. J., 1994, "Nucleate Pool Boiling of a TURBO-B Bundle in R-113," ASME J. Heat Transfer, Vol. 116, pp. 670-678.   DOI
19 Kang, M. G., 2015, "Pool Boiling Heat Transfer on Tandem Tubes in Vertical Alignment," Int. J. Heat Mass Transfer, Vol. 87, pp. 138-144.   DOI
20 Kumar, S., Mohanty, B. and Gupta, S. C., 2002, "Boiling Heat Transfer from a Vertical Row of Horizontal Tubes," Int. J. Heat Mass Transfer, Vol. 45, pp. 3857-3864.   DOI
21 Kumar, S., Jain, A., Gupta, S. C. and Mohanty, B., 2000, "Boiling Heat Transfer from a Vertical Row of Horizontal Reentrant Cavity Tubes," Proceedings of the ASME-ZSITS International Thermal Science Seminar, June 11-14, Bled, Slovenia.
22 Ustinov, A., Ustinov, V. and Mitrovic, J., 2011, "Pool Boiling Heat Transfer of Tandem Tubes Provided with the Novel Microstructure," Int. J. Heat Fluid Flow, Vol. 32, pp. 777-784.   DOI
23 Kang, M. G., 2014, "Empirical Correlation to Predict Pool Boiling Heat Transfer on Tandem Tubes," International Review of Mechanical Engineering, Vol. 8, pp. 948-951.
24 Kang, M. G., 2014, "Pool Boiling Heat Transfer on the Inside Surface of an Inclined Tube," JP Journal of Heat and Mass Transfer, Vol. 10, pp. 47-61.
25 Cornwell, K. and Houston, S. D., 1994, "Nucleate Pool Boiling on Horizontal Tubes: a Convection-based Correlation," Int. J. Heat Mass Transfer, Vol. 37, pp. 303-309.
26 J. P. Holman, 1997, Heat Transfer, 8th ed., McGraw-Hill.
27 Coleman, H. W. and Steele, W. G., 1999, Experimentation and Uncertainty Analysis for Engineers, 2nd Ed., John Wiley & Sons.