Related MCQs

• The relative velocity of water at the inlet of the Kaplan turbine is 7 m/s. β1 = 75o. The whirl velocity of the water at inlet is 10 m/s. Find the blade velocity of the turbine?a) 26.124 m/sb) 40 m/sc) 36.124 m/sd) 60 m/s 15.For the figure given below, find the missing terms in the order of (1), (2), (3) and (4).
• In the inlet velocity triangle of a Kaplan turbine, α1 = 45o. The velocity of flow at inlet = 10 m/s. Find the whirl velocity of water at the inlet of Kaplan turbine?
• In the outlet velocity triangle of a Kaplan turbine, β2 = 30o. Vf2 = 5 m/s. What is the relative velocity of the flow at outlet?
• In which of the following type of runners in a Kaplan turbine the velocity of whirl at inlet is smaller than the blade velocity?
• The flow ratio of a Kaplan turbine is given as 0.7. The available head is 30 m. The outer diameter of the runner is 3.5 m and the hub diameter is 2 m. Find the volume of water flowing through the turbine per second (m3/s)?
• A Kaplan turbine requires a speed ratio of 2. The available head of the turbine is 5 m. What should be the blade velocity of the turbine such that a speed ratio of 2 is maintained (take g = 10 m/s2)?
• The velocity of the flow through the Kaplan turbine is 25 m/s. The available head of the turbine is 60 m. Find the flow ratio of the turbine (take g = 10 m/s2).
• IN_WHICH_OF_THE_FOLLOWING_TYPE_OF_RUNNERS_IN_A_KAPLAN_TURBINE_THE_VELOCITY_OF_WHIRL_AT_INLET_IS_SMALLER_THAN_THE_BLADE_VELOCITY??$
• THE_FLOW_RATIO_OF_A_KAPLAN_TURBINE_IS_GIVEN_AS_0.7._THE_AVAILABLE_HEAD_IS_30_M._THE_OUTER_DIAMETER_OF_THE_RUNNER_IS_3.5_M_AND_THE_HUB_DIAMETER_IS_2_M._FIND_THE_VOLUME_OF_WATER_FLOWING_THROUGH_THE_TURBINE_PER_SECOND_(M<SUP>3</SUP>/S)??$
• In the inlet velocity triangle of a Kaplan turbine, ‚âà√≠¬¨¬±1 = 45^o. The velocity of flow at inlet = 10 m/s. Find the whirl velocity of water at the inlet of Kaplan turbine?$#