Issue Section:
Discussions
1.
Kroeger
P. G.
1967
, “Performance deterioration in high effectiveness heat exchangers due to axial conduction effects
,” Advances in Cryogenic Engg
, Vol. 12
, pp. 363
–372
.2.
Narayanan, S. P., 1997, “Analysis of Performance of Heat Exchangers Used in Micro Miniature Refrigerators,” M. S. thesis, Indian Institute of Technology, Madras, India.
3.
Rodriguez
J. I.
Mills
A. F.
1990
, “Analysis of Single-Blow Transient Testing of Perforated Plate Heat Exchangers
,” Int J. Heat Mass Transfer
, Vol. 33
, pp. 1969
–1976
.4.
Sarangi, S., and Barclay, J., 1984, “An analysis of Compact Heat Exchanger Performance,” Cryogenic Processes and Equipment—1984, P. J. Kerney et al., eds., ASME, New York, pp. 37–44.
5.
Venkatarathnam, G., 1991, “Matrix Heat Exchangers,” Ph.D. thesis, Indian Institute of Technology, Kharagpur, India.
6.
Venkatarathnam
G.
Sarangi
S.
1991
, “Analysis of Matrix Heat Exchanger Performance
,” ASME JOURNAL OF HEAT TRANSFER
, Vol. 113
, pp. 830
–836
.7.
Venkatarathnam
G.
1996
, “Effectiveness Ntu relationship in perforated plate matrix heat exchangers
,” Cryogenics
, Vol. 36
, pp. 235
–241
.8.
Venkatarathnam, G., 1998, “A Straight forward method for the sizing of perforated plate matrix heat exchangers,” presented at the Cryogenic Engineering Conference, July 28-Aug. 1, Portland, OR, accepted for publication in Advances in Cryogenic Engg, Vol. 43.
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