Steam is the working fluid in the ideal Rankine cycle 1-2-3-4-1 and in the Carnot cycle 1-2-3'-4'-1 that both operate between pressures of 1 bar and 20 bar as shown in the T-s diagram in the figure below. Both cycles incorporate the steady flow devices. 20 bar 1 bar Stake P(har) 20 2799 1 1 2295 0.8318 844.3 0.1889 1 417.9 0.001043 20 419.9 20 908.9 For each cycle determine: (a) the net power developed per unit mass of steam flowing, in kJ/kg. (b) the percent thermal efficiency.
Steam is the working fluid in the ideal Rankine cycle 1-2-3-4-1 and in the Carnot cycle 1-2-3'-4'-1 that both operate between pressures of 1 bar and 20 bar as shown in the T-s diagram in the figure below. Both cycles incorporate the steady flow devices. 20 bar 1 bar Stake P(har) 20 2799 1 1 2295 0.8318 844.3 0.1889 1 417.9 0.001043 20 419.9 20 908.9 For each cycle determine: (a) the net power developed per unit mass of steam flowing, in kJ/kg. (b) the percent thermal efficiency.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:Steam is the working fluid in the ideal Rankine cycle 1-2-3-4-1 and in the Carnot cycle 1-2-3-4'-1 that both operate between
pressures of 1 bar and 20 bar as shown in the T-s diagram in the figure below. Both cycles incorporate the steady flow devices.
20 bar
1 bar
Stude
P (hur)
e (mAg)
20
2799
2295
0.8318
844.3
0.1889
417.9
0.001043
20
419.9
--
20
908.9
For each cycle determine:
(a) the net power developed per unit mass of steam flowing, in kJ/kg.
(b) the percent thermal efficiency.
1.
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