d to 7150 C. A regenerator of 65% effectiveness is added in the plant rease the overall efficiency of the plant. the pressure drop in the ustion chamber is 0.12 bars as well as in the regenerator is also 0.12 Assuming the isentropic efficiency of the compressor 75% and of the e is 75%, determine the plant thermal efficiency. Neglect the mass of iel. The arrangement of the components are shown in figure 1 and the esses are represented o T-s diagram as shown in Figure 2

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A gas turbine plant of 1000 kW capacities takes the air at 1.11 bar and
150C. The pressure ratio of the cycle is 6 and maximum temperature is
limited to 7150 C. A regenerator of 65% effectiveness is added in the plant
to increase the overall efficiency of the plant. the pressure drop in the
combustion chamber is 0.12 bars as well as in the regenerator is also 0.12
bars. Assuming the isentropic efficiency of the compressor 75% and of the
turbine is 75%, determine the plant thermal efficiency. Neglect the mass of
the fuel. The arrangement of the components are shown in figure 1 and the
processes are represented o T-s diagram as shown in Figure 2
Exhaust
| Fuel
www
5.91 barg
(2
Regen.
CC
3
2'
P. = 1.01 bar
S
P, = 6 bar
1.16 bar
Transcribed Image Text:A gas turbine plant of 1000 kW capacities takes the air at 1.11 bar and 150C. The pressure ratio of the cycle is 6 and maximum temperature is limited to 7150 C. A regenerator of 65% effectiveness is added in the plant to increase the overall efficiency of the plant. the pressure drop in the combustion chamber is 0.12 bars as well as in the regenerator is also 0.12 bars. Assuming the isentropic efficiency of the compressor 75% and of the turbine is 75%, determine the plant thermal efficiency. Neglect the mass of the fuel. The arrangement of the components are shown in figure 1 and the processes are represented o T-s diagram as shown in Figure 2 Exhaust | Fuel www 5.91 barg (2 Regen. CC 3 2' P. = 1.01 bar S P, = 6 bar 1.16 bar
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