water is pumped at a rate of 32 m3 /s from the reservoir and out through the pipe, which has a diameter of 1.50 m. what power must be supplied to the water to effect this discharge?

The ratio of viscous forces to inertial forces is known as the Reynolds number. A dimensionless number called the Reynolds number is used to group fluid systems where the influence of viscosity plays a significant role in regulating the velocities or the flow pattern of a fluid.

Discharge = Q = 32 m³/s

Velocity of flow=V=Q/A = 32/( π(1.5)²/4)= 18.11 m/s

Reynold's no is given by

Re = VD/v = (18.11)(1.5)/(1.31x10⁻⁶) = 20736641.22

For steel pipe

Roughness = e = 0.045 mm

Relative roughness = E= e/D= (0.045x10⁻³)/1.5=0.00003

Friction factor from Moody's diagram is

f = 0.00988

Apply Bernoulli's theorem b/w top of left reservoirs and exit of pipe

A - denote left reservoir and B- denote exit of pipe

Pa/y + V₂²/2g + Za + hp = Pb/ γ+Vb²/2g + Zb + hf

Where

Pa= Pb=0

Va= 0, Vb = V = 18.11 m/s

Za = (100-95) = 5 m, Zb=(140-95) = 45 m

Frictional head loss =hf = flV²/2gD= (0.00988x300x18.11²)/(2x9.81x1.5)

Frictional head loss = hf = 33.03 m

hp = pump head

Putting values

0+0+5+hp = 0 +18.11²/(2x9.81) +45 +33.03

=> hp = 89.75 m

Power that must be supplied is given by

P = γQhp

P = 9.81x32x89.75

P = 28174.32 kW.

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