Related MCQs

• In an impulse turbine, the axial force on the blades is zero if _____
• Work done per kg of steam in an impulse turbine when the blade speed ratio ( ) is equal to one is _____
• Which of the following statement about the work done per kg of steam in impulse turbines is TRUE, when the blade speed ratio is equals ( frac{cos }{2} )? ( is the nozzle angle)
• Which of the following statement about efficiency of impulse turbines is TRUE, when the blade speed ratio is made equal to half of cosine of the nozzle angle?
• Which of the following statement regarding work done in impulse turbines is TRUE, if the blade speed ratio is equal to zero?
• In a single stage impulse turbine, the exit velocity of the steam is 90 m/s at an angle of 45 from the tangential direction. The mean blade speed is 200 m/s. The blades are equiangular and velocity coefficient of the blades is 0.8. Determine the velocity of steam leaving the nozzles.
• In a single stage impulse turbine nozzle angle is 20 and the mean blade speed is 300 m/s. Steam leaves the nozzle at a velocity of 700 m/s. Determine the exit velocity of the steam if the turbine blades are equiangular and frictionless.
• A simple impulse turbine has one ring of moving blades running at 400 m/s. The steam velocity leaving the nozzle is 1300 m/s. If the nozzle angle is 25 , determine the blade inlet angle.
• In a simple impulse turbine, steam leaves nozzle at 1200 m/s. The mean blade speed and nozzle angle is 300 m/s and 20 respectively. The inlet and outlet blade angles are equal. The blades of the turbine are frictionless. Determine the stage efficiency if the nozzle efficiency is 85%.
• In a single row impulse turbine, steam leaves the nozzle at 600 m/s. The nozzle angle and the mean blade speed is 25 and 200 m/s. The blade velocity coefficient is 0.8. Determine the blade outlet angle if the steam leaves the turbine blades axially.