answer is provided and mass flow rate is 4.2 kg/sec 2.a. wt' = 6300.00 kwb. x'2 = 94%%3Dc. wt = 6720.00 kwd. T2 = 24.1e. T1 = 465f. s2' = 34.10g. T2' = 24.1%3Dh. Ne' = 93.75i. delta s = 1.55 kj/sec K 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 at3.0 MPaa and 700 deg. C, and expands isentropically to 0.098325 MPavac. For 4.2| steam undergoing an irreversible adiabatic processunder the same properties, what is (a) the actual work done (KJ) if AKE = 0 and h2' = 2,400 KJ/kg; Ans:the following: actual quality at exhaust. Ans:(b) Determine_c) Ideal turbine work. Ans:d) Ideal steam temp at thef) actual entropy at steam outlet._h) irreversible adiabatic expansion efficiency.exhaust. Ans.e) Degree Superheat of the steam at turbine inlet. Ans_g) Actual temp. of steam at the exhaust. Ans.i) AS for irreversible adiabatic processAnsAns.

Steam turbine plant Steam turbine works on the principle of Rankine cycle T-s diagram of the…

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 0 MPaa and 700 deg. C, and expands isentropically to 0.098325 MPavac. For 4.2|steam undergoing an irreversible adiabatic process nder the same properties, what is (a) the actual work done (KJ) if AKE = 0 and h2' = 2,400 KJ/kg; Ans:_ e following: actual quality at exhaust. Ans:_ chaust. Ans. _(b) Determin _c) Ideal turbine work. Ans: e) Degree Superheat of the steam at turbine inlet. Ans Le) Actual temp. of steam at the exhaust. Ans. i) AS for irreversible adiabatic process _d) Ideal steam temp at t f) actual entropy at steam outlet. h) irreversible adiabatic expansion efficiency. ו5ר ns.

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 0 MPaa and 700 deg. C, and expands isentropically to 0.098325 MPavac. For 4.2|steam undergoing an irreversible adiabatic process nder the same properties, what is (a) the actual work done (KJ) if AKE = 0 and h2' = 2,400 KJ/kg; Ans:_ e following: actual quality at exhaust. Ans:_ chaust. Ans. _(b) Determin _c) Ideal turbine work. Ans: e) Degree Superheat of the steam at turbine inlet. Ans Le) Actual temp. of steam at the exhaust. Ans. i) AS for irreversible adiabatic process _d) Ideal steam temp at t f) actual entropy at steam outlet. h) irreversible adiabatic expansion efficiency. ו5ר ns.

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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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 + (SN/X) kg/sec of steam, what is (a) the ideal work done (KJ) 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 temp at the exhaust. Ans. f) Degree SH of the steam at turbine inlet. Ans g) change in entropy during the actual process. Ans
Ans 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 + (10/25) kg/sec of steam, what is (a) the ideal work done (KJ) if ∆KE = 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 temp at the exhaust. Ans.__________ f) Degree SH of the steam at turbine inlet. Ans_____________ g) change in entropy during the actual process. Ans:__________________
Solve using the Mollier Diagram. Plot the data and how you got the data (process how you used the diagram) to determine the items below. Please only use this Mollier diagram below and show process by drawing on it. Thank you Steam enters a turbine at 3.0 MPaa and 700 deg. C and expands isentropically to 0.098325 MPavac. Steam = 4.5 undergoing an irreversible adiabatic process under the same properties, determine: f) actual entropy at steam outlet. Ans g) Actual temp. of steam at the exhaust. Ans. h) irreversible adiabatic expansion efficiency. Ans. i) AS for irreversible adiabatic process_ (Please solve all subparts, this is my last question. Thank you)
Solve using the Mollier Diagram. Plot the data and how you got the data (process how you used the diagram) to determine the items below. Please only use this Mollier diagram below and show process by drawing on it. Thank you Steam enters a turbine at 3.0 MPaa and 700 deg. C and expands isentropically to 0.098325 MPavac. Steam = 4.5 undergoing an irreversible adiabatic process under the same properties, determine: (a) the actual work done (KJ) if AKE = 0 and h2' = 2,400 KJ/kg; Ans: (b) Determine the following: actual quality at exhaust. Ans: c) Ideal turbine work. Ans: d) Ideal steam temp at the exhaust. Ans._ e) Degree Superheat of the steam at turbine inlet. Ans_ (I only have this one question left. thank you)
2. a. wt' = 6300.00 kw b. x'2 = 94% %3D c. wt = 6720.00 kw d. T2 = 24.1 e. T1 = 465 f. s2' = 34.10 g. T2' = 24.1 %3D h. Ne' = 93.75 i. delta s = 1.55 kj/sec K
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SECOND LAW OF THERMODYNAMICS write your soln. complete. draw a sketch and explain if necessesary THANK YOU! answer it in 1hr
A piston cylinder arrangement initially contains 7.0 kgs of super- heated steam at 500 kPa and 250 C, now heat is removed until 44% condenses. 1) What is the amount of heat removed in (kJ)? 13935.32 11152.41 10432.49 7472.29 8357.65 6817.34 Not listed 12703.96 • 9243.01 2) What is the final volume (m )? O0.8448 1.0018 1.6297 1.2634 1.7866 1.1588 1.3681 1.4727 Not listed
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