The performance of a triple-pressure steam cycle has been compared with a single-stage Kalina cycle and an optimized three-stage Kalina cycle as the bottoming sections of a gas turbine combined cycle power plant. A Monte Carlo direct search was used to find the optimum separator temperature and ammonia mass fraction for the three-stage Kalina cycle for a specific plant configuration. Both Kalina cycles were more efficient than the triple pressure steam cycle. Optimization of the three-stage Kalina cycle resulted in almost a two percentage point improvement.

1.
Bechtel Group, 1988, EPRI Report AP-5815, May.
2.
Brown, H., and Gardner, N. J., 1982, EPRI Report AP-2536, Aug.
3.
Czermak, H., and Wunsch, A., 1982, “The 125 MW Combined Cycle Power Generator ‘Korneuburg-B’,” presented at the 27th International Gas Turbine Conference and Exhibit, London, United Kingdom, Apr. 18–22.
4.
Dayan, A., 1989, private communication.
5.
Edison Electric Institute, 1986, Statistical Yearbook of the Electric Utility Industry.
6.
El-Sayed
Y. M.
, and
Tribus
M.
,
1985
a,
ASME
AES-Vol.
1
, pp.
97
102
.
7.
El-Sayed
Y. M.
, and
Tribus
M.
,
1985
b,
ASME
AES-Vol.
1
, pp.
89
95
.
8.
EPRI, 1987, Technical Assessment Guide, Report P-4463-SR, May.
9.
Gordon, S., and McBride, B., 1976, NASA SP-273.
10.
Hyre, M. R., 1991, “Gas Turbine Bottoming Cycles: Triple Pressure Steam versus Kalina,” Master’s Thesis, Villanova University, PA.
11.
JANAF, 1971, Thermochemical Tables, 2nd ed, NSRDS-NBS 37.
12.
Jeffs, E., 1990, “Utrect 225 MW Combined Cycle Certified at 52% Efficiency,” Gas Turbine World, Jan.–Feb.
13.
JSD Simulation Service Company, 1989, ASPEN/SP.
14.
Kalina
A. I.
,
1984
,
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
106
, pp.
737
742
.
15.
Kalina, A. I., and Leibowitz, H. M., 1990, ASME Paper No. 87-GT-35.
16.
Leibowitz, H. M., and Zervos, N., 1992, Proc. 27th IECEC, Vol. 3, pp. 3.35–3.42.
17.
Leibowitz, H. M., 1993, “Operating Experiences With the 3 MW Kalina Cycle Demonstration Plant,” Proc. American Power Conference, Apr.
18.
Luus
R.
, and
Jaakola
T. H. I.
,
1973
,
AIChE Journal
, Vol.
19
, No.
4
, pp.
760
766
.
19.
Marston
C. H.
,
1990
a,
ASME JOURNAL OF ENGINEERING FOR GAS TURBINES AND POWER
, Vol.
112
, pp.
107
116
.
20.
Marston, C. H., 1990b, Proc. 25th IECEC, Vol. 2, pp. 160–165.
21.
McBride, B., and Gordon, S., 1967, NASA TN D-4097.
22.
Meyer, C. A., et al., 1967, ASME Steam Tables.
23.
Park
Y. M.
, and
Sonntag
R. E.
,
1990
,
Int. Jour. of Energy Res.
, Vol.
14
, pp.
153
162
.
24.
Robie, R. A., and Waldbaum, R., 1968, Geol. Survey Bull. 1259.
25.
Zeleznik, F. J., and Gordon, S., 1961, NASA TN D-767.
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