Issue Section:
Technical Briefs
1.
Ait-Ali, M. A., 1979, “Optimal Mixed Refrigerant Liquefaction of Natural Gas,” Ph.D. Dissertation, Mechanical Engineering Department, Stanford University, Stanford, CA.
2.
Ait-Ali, M. A., and Wilde, D. J., 1980, “Minimum Work Multi-Stage Cascade Refrigeration Cycles,” Cryogenic Processes and Equipment in Energy Systems, ASME, New York, pp. 119–123.
3.
Arora, C. P., and Dhar, P. L., 1971, “Optimization of Multi-Stage Refrigerant Compressors,” Proceedings of XIII Intl. Congress of Refrigeration, IIR (Paris), Vol. 2, pp. 693–700.
4.
Baumann
K.
Blass
E.
1961
, “Beitrag zur Ermittlung des Optimalen Mitteldruckes bei zweistufigen Kaltdampf Verdichter-Kaltemaschinen
,” Kaltetechnik
, Vol. 13
, pp. 210
–216
.5.
Behringer
H.
1928
, “Berechnung des gunstigsten Zwischendrukes bei Verbundkompression fur NH3-Kaltemaschinen
,” Z. ges. Kalte-Industrie
, Vol. 35
, pp. 111
–113
.6.
Czaplinski
S.
1959
, “Uber den optimalen Zwischendruck bei Kalteprozessen
, Allgemeine Warmetechnick
, Vol. 9
, pp. 3
–6
.7.
Gosney, W. B., 1982, Principles of Refrigeration, Cambridge University Press, Cambridge, U.K.
8.
Khan, S. H., 1992, “Second-Law-Based Thermodynamic Analysis of Vapor-Compression Refrigeration Cycles,” M.Sc. Thesis, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia.
9.
Katz
S.
1962
, “Best Operating Points for Staged Systems
,” Industrial Engineering Chemistry Fundamentals
, Vol. 1
, No. 4
, pp. 226
–240
.10.
Prasad
M.
1981
, “Optimum Interstage Pressure for 2-Stage Refrigeration Systems
,” ASHRAE Journal
, Vol. 23
, No. 1
, pp. 58
–60
.
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