. Use only the MD below to solve this Item; use it by plotting data and process to determine items being asked. Steam enters a turbine at 17.4308 atmgage, and 932 deg. F, and expands isentropicaly to 177.17 inches of Hg. For 2 + (X/SN) kg/sec of steam, what is (a) the ideal vork done (KJ/sec) if AKE = 0 and actual exhaust enthalpy is 2700 KJ/kg. a)Ans: deal steam moisture at exhaust. Ans: t the exhaust. Ans _(b)Ne - _(c)Determine: _(d) Actual steam quality at exhaust Ans: (e) Actual steam tem „f) Degree SH of the steam at turbine inlet. Ans. g) change in entropy during the actual process

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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please answer d,e,f,g parts 

2. Use only the MD below to solve this Item; use it by plotting data and process to determine items being asked. Steam enters a turbine at
117.4308 atmgage and 932 deg. F, and expands isentropicaly to 177.17 inches of Hg. For 2 + (X/SN) kg/sec of steam, what is (a) the ideal
work done (KJ/sec) if AKE = 0 and actual exhaust enthalpy is 2700 KJ/kg. a)Ans:
_(b)ne =
ideal steam moisture at exhaust. Ans:
at the exhaust. Ans.
_(c)Determine:
(d) Actual steam quality at exhaust Ans:.
) Degree SH of the steam at turbine inlet. Ans
(e) Actual steam temp
) change in entropy during the actual process.
Ans
800 C
4000
750C
650°C
600/C
650°C
3500
500
460°c.
400 0
05
300C
3000
286°C
200°C
150°C
0.05
0.08
100
50e
0.02
24.1°C
F17.5°C
2500
0.01 bar
95
0.90
85
0.75
8.80
2000
S, KI/kg-K
Enthalpy - h- (kJ/kg)
500 bar
002
0.1
Transcribed Image Text:2. Use only the MD below to solve this Item; use it by plotting data and process to determine items being asked. Steam enters a turbine at 117.4308 atmgage and 932 deg. F, and expands isentropicaly to 177.17 inches of Hg. For 2 + (X/SN) kg/sec of steam, what is (a) the ideal work done (KJ/sec) if AKE = 0 and actual exhaust enthalpy is 2700 KJ/kg. a)Ans: _(b)ne = ideal steam moisture at exhaust. Ans: at the exhaust. Ans. _(c)Determine: (d) Actual steam quality at exhaust Ans:. ) Degree SH of the steam at turbine inlet. Ans (e) Actual steam temp ) change in entropy during the actual process. Ans 800 C 4000 750C 650°C 600/C 650°C 3500 500 460°c. 400 0 05 300C 3000 286°C 200°C 150°C 0.05 0.08 100 50e 0.02 24.1°C F17.5°C 2500 0.01 bar 95 0.90 85 0.75 8.80 2000 S, KI/kg-K Enthalpy - h- (kJ/kg) 500 bar 002 0.1
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