The aqueduct passes under Johnson Road in Lancaster through a siphon. The maximum capacity of the aqueduct is 350 m3/s. The height difference from the upper to the lower channels is about 2 m and the distance between them is about 100 m. How large a pipe is needed to carry the flow? State any assumptions you make

Question

Luz Fuller

Physics

6 February, 12:35

The aqueduct passes under Johnson Road in Lancaster through a siphon. The maximum capacity of the aqueduct is 350 m3/s. The height difference from the upper to the lower channels is about 2 m and the distance between them is about 100 m. How large a pipe is needed to carry the flow? State any assumptions you make

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Answers (1)

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Nicholas Fritz · Answer 1

Answer: 2738.5 cubic metres

Explanation: Given that

Flow rate Q = 350m^3/s

Height h = 2m

Distance x = 100m

Using pythagorean theorem to find the length L of the pipe

L^2 = 100^2 + 2^2

L^2 = 10004

L = 100.02 m

Let assume that the pipe is uniform of same diameter at both ends and water flows through the pipe

Let also consider the atmospheric pressure at the upper channel

Using bernoulli equation

P1 = P2 + 1/2pV^2

Where P2 = phg

P1 = atmospheric pressure = 101325pa

V = velocity

p = density = 1000kg/m3

101325 = 1000*9.81*2 + (0.5*1000V^2)

101325 - 19620 = 500V^2

81705 = 500V^2

V^2 = 163.41

V = 12.8 m/s

Q = V * A

Where A = area of the pipe

A = Q/V

A = 350/12.8 = 27.4 square metre

The volume of the pipe = A * L

Volume = 27.4 * 100.02

Volume = 2738.5 cubic metres

The volume of the pipe determines how large a pipe is needed to carry the flow