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Mechanical Engineering Exam  >  Mechanical Engineering Tests  >  Topicwise Question Bank for Mechanical Engineering  >  Test: Gas Turbine Power Plants - 3 - Mechanical Engineering MCQ

Test: Gas Turbine Power Plants - 3 - Mechanical Engineering MCQ


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10 Questions MCQ Test Topicwise Question Bank for Mechanical Engineering - Test: Gas Turbine Power Plants - 3

Test: Gas Turbine Power Plants - 3 for Mechanical Engineering 2024 is part of Topicwise Question Bank for Mechanical Engineering preparation. The Test: Gas Turbine Power Plants - 3 questions and answers have been prepared according to the Mechanical Engineering exam syllabus.The Test: Gas Turbine Power Plants - 3 MCQs are made for Mechanical Engineering 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Gas Turbine Power Plants - 3 below.
Solutions of Test: Gas Turbine Power Plants - 3 questions in English are available as part of our Topicwise Question Bank for Mechanical Engineering for Mechanical Engineering & Test: Gas Turbine Power Plants - 3 solutions in Hindi for Topicwise Question Bank for Mechanical Engineering course. Download more important topics, notes, lectures and mock test series for Mechanical Engineering Exam by signing up for free. Attempt Test: Gas Turbine Power Plants - 3 | 10 questions in 30 minutes | Mock test for Mechanical Engineering preparation | Free important questions MCQ to study Topicwise Question Bank for Mechanical Engineering for Mechanical Engineering Exam | Download free PDF with solutions
Test: Gas Turbine Power Plants - 3 - Question 1
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A gas turbine operates between 5°C and 839°. What is the pressure ratio at which maximum work is obtained?

Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 1

For a simple cycle,

for maximum work,


∴ 
or

Test: Gas Turbine Power Plants - 3 - Question 2
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A gas turbine works on which one of the following cycles?

Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 2

Gas turbines works on the Brayton cycle.

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Test: Gas Turbine Power Plants - 3 - Question 3
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Brayton cycle with infinite intercooling and reheating stages would approximate a

Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 3

Brayton cycle with infinite intercooling and reheating stages would approach the Ericsson cycle

Test: Gas Turbine Power Plants - 3 - Question 4
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Which one of the following additions/sets of additions simple gas turbine cycle will have NO effect on the power output the cycle?
Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 4

Since the exhaust gases of the gas turbine having very high pressure and temperature, these gases are used to heat the air before going to the combustion chamber of gas turbine which reduces the overall heat addition in the combustion chamber, But workout put will be same as without regeneration.

Test: Gas Turbine Power Plants - 3 - Question 5
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In a gas turbine, working on Brayton cycle with regeneration, air exits from the compressor at 550 K and gas exits from the turbine at 800 K. If the effectiveness of the regenerator is 0.8, then what is the air temperature at the combustion chamber inlet?
Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 5



Test: Gas Turbine Power Plants - 3 - Question 6
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A gas turbine power plant has a specific output of 350 kJ/kg and an efficiency of 34%. A regenerator is installed and the efficiency increases to 51%. The specific output wil! be closest to
Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 6

In case of gas turbine, regeneration decreases the heat supplied. It has no effect on power output.

Test: Gas Turbine Power Plants - 3 - Question 7
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The given figure shows an open-cycle gas turbine employing reheating, on T-S plane. Assuming that the specific heats are same for both air and gas, and neglecting the increase in mass flow due to addition of fuel, the efficiency is
Detailed Solution for Test: Gas Turbine Power Plants - 3 - Question 7

WT = Cp(T3 - T4) + Cp(T5 - T6)
= Cp(1000 - 600) + Cp(800 - 570)
= 400Cp + 230Cp = 630Cp
WC = Cp(T2 - T1)
= Cp(450 - 300) = 150Cp kJ/kg
Heat supplied
= Cp(T3 - T2) + Cp(T5 - T4)
= Cp(1000 - 450) + Cp(800 - 600)
= 550Cp + 200Cp = 750Cp kJ/kg

Test: Gas Turbine Power Plants - 3 - Question 8
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The cycle shown in the given figure represents a Gas Turbine Cycle with inter-cooling and reheating

Match List-l (Units) with List-II (Processes) and select the correct answer using the codes given below the lists:
List-l
A. Intercooler
B. Combustor
C. Reheater
D. High pressure compressor
List-lI
1. 1-2
2. 2-3
3. 3-4
4. 4-5
5. 6-7
Codes:
     A B C D
(a) 1 2 4  3
(b) 2 4 5  3
(c) 3 4 5  2
(d) 2 4 5  1
Test: Gas Turbine Power Plants - 3 - Question 9
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Which one of the following is the correct statement?
In a two-stage gas turbine plant with inter-cooling and reheating
Test: Gas Turbine Power Plants - 3 - Question 10
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In a two-stage gas turbine plant operating on a Brayton cycle with regeneration,
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