How do we find the volumetric flow rate given the data below? Water at 20°C discharges from a storage tank through a 150 m length of horizontal pipe. The pipe is smooth and has a diameter of 75 mm. The entrance to the pipe is square edged with a loss coefficient of 0.5. The depth of water needed to produce a volumetric flow rate of 0.1 m³/s is about: 1. Calculate the velocity of the flow. 2. Determine the Reynolds number and find the friction factor. 3. Calculate the head loss due to friction and the head loss due to the coefficient of 0.5. 4. Find the total head loss.

Question

Jacynthe · Answer

Solution: To find the volumetric flow rate, we need to follow these steps: 1. Calculate the velocity of the flow: Given diameter of the pipe (D) = 75 mm = 0.075 m Given volumetric flow rate = 0.1 m³/s Using the formula Volume flow = area x velocity, we get: 0.1 m³/s = π(0.075/2)² x velocity Therefore, velocity = 2.83 m/s 2. Determine the Reynolds number and find the friction factor: Calculate Reynolds number (RE): RE = ρVD/μ = 998 x 2.83 x 0.075 / 1.002 x 10⁻³ pa.s = 2.11 x 10⁵ Calculate friction factor (f): f = 0.079 / (2.11 x 10⁵)^1/4 = 0.00267 3. Calculate the head loss due to friction and the head loss due to the coefficient of 0.5: Head loss due to friction (hl): hl = (4 x 0.0195 x 150 / 0.075) x (2.83²) / (2 x 9.81) = 63.68 Head loss due to coefficient of 0.5 (hlc): hlc = 0.5 x (2.83²) / 2 x 9.81 = 0.204 4. Find the total head loss: Total head loss = 63.68 + 0.204 = 63.88 meters

Calculating Volumetric Flow Rate: A Complete Guide

How do we find the volumetric flow rate given the data below?

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