Related MCQs

• In a single stage reaction turbine, the mean blade velocity is observed to be 200 m/s and the nozzle angle is 20 . The absolute value of the steam leaving the nozzle is 350 m/s. The factor with which the relative velocity of steam changes wit respect to the moving is 2.1. If the moving blade inlet and outlet aangles are equal then calculate the degree of reaction of the turbine.
• In a Parson s reaction turbine, the outlet angle of blade is 25 . Calculate the work done per second by the blades if the blade mean blade speed is 60 m/s and the absolute velocity of the steam leaving the nozzle is 120 m/s. The mass flow rate of steam is 0.1 kg per second.
• In a reaction turbine, the fixed blades and the moving blades are of the same shape but reversed in direction. The mean blade speed is 30 m/s. The absolute velocity of the steam leaving the nozzle is 90 m/s and the absolute velocity of steam leaving the moving blade is 64 m/s. Determine the nozzle angle.
• In a single stage Parson s reaction turbine, the mean blade velocity is observed to be 60 m/s and the nozzle angle to be 20 . Determine the the entrance angle of moving blade if the absolute velocity of the steam leaving the nozzle is 120 m/s.
• The axial force on the blades in Parson s reaction turbine is always zero.
• Which of the following velocity diagram ccorresponds to a Parson s reaction turbine?
• The maximum value of efficiency for a Parson s reaction turbine is _____
• What should be the ratio of blade speed to absolute velocity of steam leaving the nozzle for a Parson s reaction turbine to work at maximum efficiency?
• Which of the following statements does NOT hold true for a Parson s reaction turbine?
• The degree of reaction of a Parson s reaction turbine is _____