The kinematic viscosity of a hydraulic oil is 89 cS. If it is flowing at 17 ft/sec through a 2 in-diameter commercial steel pipe, what is the friction factor?
The kinematic viscosity of a hydraulic oil is 89 cS. If it is flowing at 17...
2. The kinetic viscosity of a hydraulic oil is 110cP. The oil is flowing in a 20-mm diameter commercial steel pipe with the length of 45-m. If the velocity of oil is 4-m/s and specific gravity is 0.9 find the following a. Reynolds number b. Friction factor c. Head losses. 2. The kinetic viscosity of a hydraulic oil is 110cP. The oil is flowing in a 20-mm diameter commercial steel pipe with the length of 45-m. If the velocity of...
A hydraulic oil with a kinematic viscosity of 4 x 10-4 m2/s and specific gravity of 0.89 flows in a 22 mm diameter pipe at 3 m/s. Determine the head loss (in bar) due to friction for a 95 m long pipe.?
Oil with a density of 850 kg/m and kinematic viscosity of 0.00062 m2/s is being discharged from a 5-mm-diameter, 40-m-longhorizontal pipe from a storage tank open to the atmosphere. The height of the liquid level above the center of the pipe is 3-m. If the friction factor (f) of the pipe is 0.006. Disregarding the minor losses, determine the flow rate of oil through the pipe. 11. 3 m Oil tank 5 mm
Water, with a kinematic viscosity of 1.21x10 square feet/second, flows from reservoir A to B as shown in the figure. The pipe has a roughness height of 0.0005-feet, flowrate of 26 cfs, elbows with loss coefficients of 0.2, and a friction factor of 0.019. a) Determine the pipe diameter. b) Sketch the EGL and HGL Elevation z1 = 44 ft (1) w Total length = 1700 ft A Elevation Z2 = 0 V (2) D B
An oil (SG = 0.9) Issues from the pipe shown in the figure below at Q = 35 ft/h. The length of the pipe is 5 ft. The kinetic energy correction factor a ls 2.0. 10 ft References eBook & Resources Section Break Difficulty: Medium value: 20.00 polnts What is the kinematic viscosity of the oil in ft/s? Round the answer to six decimal places. The kinematic viscosity of the oil is ft/s.
A light oil is flowing through a commercial steel pipe of diameter D1. The head available to produce flow is independent of the flow rate. It is decided to utilise this head to increase the oil flow rate fourfold by installing a second pipe in parallel with the first pipe and of the same length. What should the diameter of the second pipe be, if: (i) flow in each of the two pipes is highly turbulent and the same roughness...
Oil (density = 910Kg/m3 and viscosity 3.1 x10-3 Pa-s) is pumped from an open tank to a pressurized tank held at 400KPa gauge. The oil is pumped from an inlet at the side of the open tank through a line of commercial steel pipe (inside diameter 0.8m) at a rate of 5x10-3 m3/s. The length of the straight pipe is 150 m, and the pipe contains 4 (90-degree) elbows and two globe valve half open. The level of the liquid...
Oil (s = 0.85) is flowing through a pipe from left to right with a mercury (s = 13.6) manometer attached. The diameter of the pipe at the manometer inlet is 1.0 ft and the diameter of the pipe at the manometer outlet is 0.5 ft. The manometer reads 6 inches. What is the pressure drop across the manometer in psi?
(10 pts.) #5. Oil of kinematic viscosity 50 x 10 ft/s is to be used in a prototype in which both viscous and gravity forces dominate. A model scale of 1:5 is also desired. What viscosity of model liquid is necessary to make both Froude number and Reynolds number the same in model and prototype?
2. An oil having density of 833 kg/m3 and a viscosity of 3.3 x 103 Pa.s is pumped from an open tank to a pressurized tank held at 345 k Pa gauge. The oil is pumped from an inlet at the side of the open tank through a line of commercial steel pipe having an inside diameter of 0.07792 m at the rate of 3.494 x 103 m'/s. The length of the straight pipe is 122 m and the pipe...