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Civil Engineering (CE) Exam  >  Civil Engineering (CE) Tests  >  Fluid Mechanics for Civil Engineering  >  Test: Pelton Turbine - Civil Engineering (CE) MCQ

Test: Pelton Turbine - Civil Engineering (CE) MCQ


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10 Questions MCQ Test Fluid Mechanics for Civil Engineering - Test: Pelton Turbine

Test: Pelton Turbine for Civil Engineering (CE) 2024 is part of Fluid Mechanics for Civil Engineering preparation. The Test: Pelton Turbine questions and answers have been prepared according to the Civil Engineering (CE) exam syllabus.The Test: Pelton Turbine MCQs are made for Civil Engineering (CE) 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Pelton Turbine below.
Solutions of Test: Pelton Turbine questions in English are available as part of our Fluid Mechanics for Civil Engineering for Civil Engineering (CE) & Test: Pelton Turbine solutions in Hindi for Fluid Mechanics for Civil Engineering course. Download more important topics, notes, lectures and mock test series for Civil Engineering (CE) Exam by signing up for free. Attempt Test: Pelton Turbine | 10 questions in 30 minutes | Mock test for Civil Engineering (CE) preparation | Free important questions MCQ to study Fluid Mechanics for Civil Engineering for Civil Engineering (CE) Exam | Download free PDF with solutions
Test: Pelton Turbine - Question 1
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Velocity triangles are used to analyze ____________

Detailed Solution for Test: Pelton Turbine - Question 1

By using velocity triangles we can determine discharge of flow, angle of deflection of jet and to measure relative velocity of jet with respect to speed of wheel.

Test: Pelton Turbine - Question 2
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Tangential velocity of blade of Pelton wheel is proportional to ____________

Detailed Solution for Test: Pelton Turbine - Question 2

Usually velocity of blade is given by u = radius x angular velocity from which velocity is proportional to speed of wheel.

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Test: Pelton Turbine - Question 3
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In which of following turbine inlet whirl velocity and inlet jet velocity are equal in magnitude?

Detailed Solution for Test: Pelton Turbine - Question 3

In Pelton turbine velocity of inlet is parallel to splitter and is parallel to x axis which doesn’t have flow velocity.

Test: Pelton Turbine - Question 4
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In Pelton wheel, if outlet velocity angle of jet is “obtuseangled” then outlet whirl velocity of jet is _____________
Detailed Solution for Test: Pelton Turbine - Question 4

By constructing velocity triangle we come to know that whirl velocity of jet is equal in magnitude to that of Blade velocity – x- component of V (r2).

Test: Pelton Turbine - Question 5
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In Pelton wheel, relative inlet velocity of jet with respect to velocity of vane is ______
Detailed Solution for Test: Pelton Turbine - Question 5

In Pelton turbine, inlet velocity of jet and velocity of vanes are in same direction and of different magnitude hence relative velocity is found by calculating its difference.

Test: Pelton Turbine - Question 6
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In Pelton turbine the energy available at inlet of runner that is at outlet of nozzle is known as
Detailed Solution for Test: Pelton Turbine - Question 6

In Pelton turbine the energy available at inlet of runner that is at outlet of nozzle is known as runner power, the energy available in penstock is water energy.

Test: Pelton Turbine - Question 7
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The value of coefficient of velocity is _____________
Detailed Solution for Test: Pelton Turbine - Question 7

Coefficient of velocity is defined as ratio of actual velocity of jet at vena contraction to theoretical velocity. Its value is approximate to 0.98.

Test: Pelton Turbine - Question 8
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In which of following turbine inlet and outlet blade velocities of vanes are equal?
Detailed Solution for Test: Pelton Turbine - Question 8

In Pelton turbine each blade has same angular velocity and same linear speed unlike Francis and Kaplan turbines.

Test: Pelton Turbine - Question 9
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In Pelton wheel if angle of deflection is not mentioned then we assume it as______________
Detailed Solution for Test: Pelton Turbine - Question 9

It is standard value for deflection of jet, which is found by performing several experimental operations.

Test: Pelton Turbine - Question 10
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In Pelton turbine runner power is more when compared with power available at exit of nozzle.
Detailed Solution for Test: Pelton Turbine - Question 10

Runner power is less when compared with power available at exit of nozzle due to frictional losses.

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Important Questions for Pelton Turbine

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Pelton Turbine MCQs with Answers

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