A 3-in.-diameter pipe supplies water with a velocity of 3 ft/s. The pipe is made of commercial steel and the water temperature is 50∘F. Use the equation 1f√=−1.8log[(ε/D3.7)1.11+6.9Re].
Determine the friction factor.
A 3-in.-diameter pipe supplies water with a velocity of 3 ft/s. The pipe is made of...
8. (15 points) Water flows through a 3-in diameter pipe with a velocity of 25 ft/s as shown in the figure below. The relative roughness of the pipe is 0.0004 ft, and the loss coefficient for the exit is 1.0. Values for the liquid height in the tank (z) and the pipe length between the standpipe and tank (L) are 6 ft and 10 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
1) 2) 3) Oil flows through an 8-inch diameter pipe with a velocity of 18 ft/s. If it discharges into the atmosphere through the nozzle, determine the total force the bolts must resist at the connection AB to hold the nozzle onto the pipe. Assume Yo = 55 lb/ft3. (30 pts) 8 in. 4 in. 18 m/s 06 PROB011 Research is being conducted on a medical specimen. They are trying to determine the pressure drop in fluid carrying vessels. If...
8. (15 points) Water flows through a 2-in diameter pipe with a velocity of 15 ft/s as shown in the figure below. The relative roughness of the pipe is 0.0004 ft, and the loss coefficient for the exit is 1.0. Values for the liquid height in the tank (2) and the pipe length between the standpipe and tank (L) are 8 ft and 8 ft, respectively. Determine the height, h (ft), to which the water rises in the standpipe. P...
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...
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.
Water is flowing full in an 18-inch diameter pipe at a velocity of 8.55 ft/s. Find the discharge, Q, in cfs.
Use the moody diagram provided. You have riveted circular steel pipe that is 1.5ft in diameter. The roughness is ε=0.003ft. Water at T=60oF flowing through the pipe. What is the relative roughness, ε/D, of the pipe? What is the kinematic viscosity of the water in ft2/s? What is the velocity for the Reynold’s number to be Re=1000? Ans 0.00811ft/s What is the velocity needed for the Reynold’s number to be Re=30,000? Ans 0.243ft/s What is the velocity for the Reynold’s...
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...
Problem 4. Water flows through a large tank having a diameter of 8 ft. The velocity of the water relative to the tank is given as Vi 16-r f/s. Water then leaves through two pipes. A 3ft pipe whose velocity of the water relative to the radius of the pipe can be expressed as V2-2.25- ts and a third pipe. Draw the control volume for this system What must be the average velocity of the third pipe if the diameter...
A 650-ft-long horizontal commercial steel pipe having a diameter of 6 in. is used to transport water at T = 70∘F. Use the Moody diagram. Part A Determine the power output of a pump if the discharge through the pipe is to be 120 ft3/min and the pressure at the pump inlet is 5 psi. The pipe is open to the atmosphere at its outlet. Express your answer using three significant figures.