1.
Date
A. W.
,
1991
, “
A strong enthalpy formulation for the Stefan problem
,”
Int. J. Heat Mass Transfer
, Vol.
34
, No.
9
, pp.
2231
2235
.
2.
Griffin, F. P., and Smith, R. N., 1980, “Approximate solution for freezing adjacent to an extended surfaces,” Proc. Joint ASME/AIChE National Heat Transfer Conference, Orlando, FL, pp. 1–13.
3.
Lacorix
M.
,
1993
, “
Study of the heat transfer behavior of a latent heat thermal energy storage unit with a finned tube
,”
Int. J. Heat. Mass. Transfer
, Vol.
36
, No.
8
, pp.
2083
2092
.
4.
London
A. L.
, and
Seban
R. A.
,
1943
, “
Rate of Ice Formation
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
65
, pp.
771
778
.
5.
Padmanabhan
P. V.
, and
Krishnamurthy
M. V.
,
1986
a, “
Outward phase change in a cylindrical annulus with axial fins on the inner tube
,”
Int. J. Heat Mass Transfer
, Vol.
29
, No.
12
, pp.
1855
1868
.
6.
Padmanabhan, P. V., and Krishnamurthy, M. V., 1986b, “Outward phase change in a cylindrical annulus with circumferential fins,” Proc. 8th International Heat Transfer Conference, San Francisco, CA, pp. 1773–1779.
7.
Shamsundar
N.
, and
Sparrow
E. M.
,
1975
, “
Analysis of Multidimensional Conduction Phase Change via the Enthalpy Model
,”
ASME JOURNAL OF HEAT TRANSFER
, Vol.
97
, pp.
333
340
.
8.
Smith, R. N., and Koch, J. D., 1982, “Numerical Solution for freezing adjacent to a finned surface,” Proceedings of Seventh International Heat Transfer Conference, U. Grigull, et al., eds., Munchen, Germany, pp. 69–74.
9.
Sparrow
E. M.
, et al.,
1981
, “
Freezing on a finned tube for either conduction controlled or natural convection controlled heat transfer
,”
Int. J. Heat. Mass. Transfer
, Vol.
24
, pp.
273
284
.
10.
Velraj
R.
, et al.,
1997
, “
Experimental Analysis and Numerical Modeling of Inward Solidification on a Finned Vertical Tube for a Latent Heat Storage Unit
,”
Solar Energy
, Vol.
60
, No.
5
, pp.
281
290
.
11.
Voller
V. R.
,
1990
, “
Fast implicit Finite-Difference Method for the Analysis of Phase Change Problems
,”
Numerical Heat Transfer, Part-B
, Vol.
17
, pp.
155
169
.
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