Question asking me to show that the water flow rate is approximately 26kg\s

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To determine the water flow rate of approximately 26 kg/s through a 200m long, 125mm diameter pipe with a friction factor of 0.008, Bernoulli's equation and Darcy's equation are essential for calculating frictional losses. The user understands the need to find both velocity and frictional head loss but is unsure how to proceed due to having two unknowns. The volume flow rate can be calculated by multiplying velocity by the pipe's cross-sectional area, and the water flow rate in kg/s can be derived by converting cubic meters to kilograms using the water density of 1000 kg/m³. A trial and error approach is suggested to balance the equations. This method will help in accurately estimating the flow rate needed for irrigation.
Euansmith
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1. A farmer builds a water storage tank 12m above ground.

The water is fed via a 200m long, 125mm diameter pipe to a field for irrigation purposes. The pipe has a friction factor of 0.008. Using the K data below, show that the water flow rate (kg/s) in the pipe is approximately 26kg/s.
Data
K factors: Tank exit 0.5, Bend 0.9, valve 1.0 Water density: 1000kg/m3
 
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So far I understand how to use Bernoulli's equation, and how to use Darcy's equation to obtain the frictional loss of the pipe, but I can't actually do them because I have two unknowns. Those being velocity and frictional head loss.

I know that to find volume flow rate you multiply the velocity by the cross sectional area of the pipe. Then I guess to find the water flow rate in kg/s I will have to take the flow rate and divide 1000 by it. (1000kg of water per cubic metre.) If someone could point me in the right direction I would be most appreciative.

Cheers,

Euan.
 
Attempt a trial and error solution until a certain equation balances.
 

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