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 =, _(c)Determine: ideal steam moisture at exhaust. Ans: _(d) Actual steam quality at exhaust Ans: _(e) Actual steam tem Degree SH of the steam at turbine inlet. Ans g) change in entropy during the actual process at the exhaust. Ans. Ans
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 =, _(c)Determine: ideal steam moisture at exhaust. Ans: _(d) Actual steam quality at exhaust Ans: _(e) Actual steam tem Degree SH of the steam at turbine inlet. Ans g) change in entropy during the actual process at the exhaust. Ans. Ans
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
Related questions
Question
SN = 9
X = 20
please answer part d,e,f,g
![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](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0b586ece-cbfd-4ede-980a-0ad5503b9e1d%2Ffeb40a05-5468-4d61-a0ce-1dadd411f0d8%2Fzglnse_processed.png&w=3840&q=75)
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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