water at 20 degrees celsius is flowing through a cast iron pipe (surface roughness=0.00085 ft) and...
A 1-mile long 12-inch diameter asphalt dipped cast iron pipe (e = 0.00085 ft) conveys 60°F water at 3 cfs. Determine (a) friction factor f using the Moody Diagram, (b) f using the Colebrook equation, (c) head loss over the 1 mile distance, (d) slope of the EGL. Problem 2 A 1-mile long 12-inch diameter asphalt dipped cast iron pipe (e = 0.00085 ft) conveys 60℉ water at 3 cfs Determine (a) friction factor fusing the Moody Diagram, (b) fusing...
1) Water is flowing through the 50-mm galvanized-iron pipe system shown in the figure. The average velocity in the pipe is V=3.5 m/s. Assume the temperature is 20°C. a) What is friction loss between Points A and B? b) What is the pressure at Point A, if Point B is a free jet? Use the Moody Diagram to solve. 50 mm 2) For the same conditions in Problem #1, use the "Fully-Rough" equation to determine the friction factor, f. Compare...
Water flows through a pipe at a velocity of 1 m/s. The pipe has a relative roughness of 0.001 and has a diameter of 100 mm 1. Using the information provided above and in the Moody diagram, drag and drop circle 1 (located below the graph) where the corresponding Reynolds number and relative roughness intersect 2. Drag and drop circle 2 to the point on the y axis at which you would measure the friction factor () v 10-6 m2/s...
Please solve a,b,c,d,e,f 1) A water fountain is to be installed at a remote location by attaching a cast iron pipe directly to a water main through which water is flowing. The entrance to the pipe is sharp-edged 15m (K-0.5), and the 15m long piping system involves three 90 bends without vanes (K1.1), a fully open gate valve (K.-0.2), and a fully open angle valve (K-5). If the diameter of the pipe is 2 em and the system is to...
Water at 15-Celsius flowing through 25 meters of 100mm- diameter galvanized iron pipe, causes a head loss (due to pipe friction) of 75mm. Find the flow rate
Water flows through a cast iron pipe at a velocity of 4.2 m/s. The pipe is 400 m long and has a diameter of 150 mm. The friction factor is 0.00593. Determine the Reynolds number and head loss due to friction.
1. For water at 20 C flowing through a straight smooth pipe at 0.06 m/h, the pipe diameter for which transition to turbulence will occur is approximately a. 1.0 cm b. 1.5 cm c.2.0 cm d. 2.5 cm e. 3.0 cm 2. Find the Reynold number, the roughness parameter, the friction factor f and the pressure drop for flow of water at 20 C through a 5 cm diameter pipe of roughness height E=0.5 mm if the flow rate is...
a) Oil fows through a cast iron pipe of 250 mm diameter such that the loss of head over and the average surface roughness of iron 0.25 mm. Determine the flow rate of oil through the pipe 220 006 Smoodh pige 0.008 9 2357 2357 23579 23579 23579 toe 10 10 b) Determine the nput power to an electric motor (-90%) supplying a pump h" 90%) deiven g anks wh diference in elevati o the pipeline length is 100m long...
(b) Water flows under gravity between two reservoirs through a pipe of length 5000m. The diameter of the pipe is 0.2 m and the roughness size is 0.04 mm. The water levels in the two reservoirs are maintained with a difference of 50 m. Determine the discharge through the pipe. Neglect all minor losses. Use the attached Moody diagram for estimation of friction factor. (10 marks) (c) In (b), now include entry loss at the upper reservoir with loss coefficient...
Water is flowing through a 10-cm diameter water pipe at a rate of 0.2 m^3/s. Now a diffuser with an outlet diameter of 20 cm is bolted to the pipe in order to slow down water that exits into the atmosphere, as shown. Disregarding frictional effects, determine the force exerted on the flange due to the water flow. Density of water = 1,000 kg/m^3. + d = 10 cm D = 20 cm Diffuser