Water is being discharged from a reservoir through a turbine as shown. Determine the elevation of the water surface in the reservoir that would be required in order for the turbine to generate 56 kW of power. The head loss in the 300 mm diameter pipe is 3.125 times its velocity head and the head loss at the 600 mm diameter pipe is 0.68 times its velocity head. A 20 mm diameter steel pipe is used to drain and oil tank (SG=0.88) as shown. If the total head loss is 2.904m, find the velocity at point 2.

Transcribed Image Text:

Water is being discharged from a reservoir through a turbine as shown. Determine the elevation of the water surface in the reservoir that would be required in order for the turbine to generate 56 kW of power. The head loss in the 300 mm diameter pipe is 3.125 times its velocity head and the head loss at the 600 mm diameter pipe is 0.68 times its velocity head. Elev. = ? Water Turbine 20 m, 600-mm diameter Q = 0.28 m³/s Elev. 50 m Water Do not write the unit. You will only input the numerical answer in the space provided. Unit of the Correct Answer: m Decimal Places required in the final answer: 3 Q=0.28 m³/s 50 m, 300-mm diameter

Transcribed Image Text:

A 20 mm diameter steel pipe is used to drain and oil tank (SG=0.88) as shown. If the total head loss is 2.904m, find the velocity at point 2 3m 2 Do not write the unit. You will only input the numerical answer in the space provided. Unit of the Correct Answer: m/s Decimal Places required in the final answer: 3