A decomposition analysis on convectingradiating rectangular plate fins for variable thermal conductivity and heat transfer coefficient

Journal of the Franklin Institute

Volumn 349, Issue 3, 2012, Pages 966-984

  Kundu, Balaram ^a,c   Wongwises, Somchai ^b,d  

^a JADAVPUR UNIVERSITY   (India)

^b KING MONGKUT'S UNIVERSITY OF TECHNOLOGY THONBURI   (Thailand)

^c Hanyang University   (South Korea)

^d Academy of Science   (Thailand)

Author keywords

[No Author keywords available]

Indexed keywords

AUGMENTATION FACTOR; CLOSED FORM; CONVECTIVE HEAT TRANSFER COEFFICIENT; DECOMPOSITION ANALYSIS; DECOMPOSITION METHODS; ENERGY EQUATION; EXACT MATCHING; FIN ARRAYS; FIN EFFICIENCY; FIN MATERIALS; FIN SURFACE; HIGH TEMPERATURE; NUMERICAL VALUES; PRIMARY SURFACE; RADIATION HEAT; RECTANGULAR PLATES; VARIABLE THERMAL CONDUCTIVITY;

FINS (HEAT EXCHANGE); HEAT TRANSFER COEFFICIENTS; NONLINEAR EQUATIONS; SURFACES; TEMPERATURE DISTRIBUTION; THERMOANALYSIS;

THERMAL CONDUCTIVITY;

EID: 84857648487     PISSN: 00160032     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jfranklin.2011.12.002     Document Type: Article

References (16)

1. E.M. Sparrow, and L. Lee Effect of fin base temperature depression in a multi-fin array ASME J. Heat Transfer 97 1975 463 465
2. N.V. Suryanarayan Two-dimensional effects on heat transfer from an array of straight fins ASME J. Heat Transfer 99 1977 129 132
3. P.J. Heggs, and R.R. Stone The effects of dimensions of heat flow rates through extended surfaces ASME J. Heat Transfer 102 1980 180 182 (Pubitemid 10464227)
4. P.J. Heggs, D.B. Ingham, and M. Manzoor The analysis of fin assembly heat transfer by series truncation method ASME J. Heat Transfer 104 1982 210 212
5. B. Kundu, and P.K. Das Performance and optimum design analysis of convective fin arrays attached to flat and curved primary surfaces Int. J. Refrig. 32 2009 430 443
6. B. Kundu, and A. Miyara An analytical method for determination of the performance of a fin assembly under dehumidifying conditions: A comparative study Int. J. Refrig. 32 2009 369 380
7. B.T.F. Chung, and B.X. Zhung A novel design for a radiative fin array system J. Franklin Inst. 330 1993 465 478
8. A.M. Elazhary, and H.M. Soliman A nongray analysis of radiating-convecting rectangular plate-fin arrays Heat Mass Transfer 44 2008 413 420 (Pubitemid 350276128)
9. B. Kundu, and A. Aziz Performance of a convectively heated rectangular fin with a step change in cross-sectional area and losing heat by simultaneous convection and radiation ASME J. Heat Transfer 132 2010 104502-1104502-6
10. A. Aziz, and F. Khani Convectionradiation from a continuously moving fin of variable thermal conductivity J. Franklin Inst. 348 2011 640 651
11. A. Razani, and H. Zohoor Optimum dimensions of convective-radiative spines using a temperature correlated profile J. Franklin Inst. 328 1991 471 486
12. G. Adomian Non-linear Stochastic System Theory and Application to Physics 1988 Kluwer Academic Publisher Dordrecht
13. X. Shang, P Wu, and X. Shao An efficient method for solving EmdenFowler equations J. Franklin Inst. 346 2009 889 897
14. J. Biazar, P. Gholamin, and K. Hosseini Variational iteration method for solving FokkerPlanck equation J. Franklin Inst. 347 2010 1137 1147
15. P.Y. Tsai, and C.K. Chen An approximate analytic solution of the nonlinear Riccati differential equation J. Franklin Inst. 347 2010 1850 1862
16. F. Mohammadi, and M.M. Hosseini A comparative study of numerical methods for solving quadratic Riccati differential equations J. Franklin Inst. 348 2011 158 164