1. What oressure eradient along a streamline, dP/ds, wil accelerate water (a) down a vertical pipe...
Problem 2 What pressure gradient along a streamline (dp/ds) is required to accelerate water at a rate of 30 ft/s2 in a pipe at an angle of 30 degrees above horizontal?
1. Water flows at Re = 104 up a vertical smooth walled pipe ( L = 10m ; D= 2 cm). At z=L/2 find : (a) the shear stress Tiz at the wall and at r=R/2;(b) the gage pressure change APg; (c) estimate the effective turbulent eddy viscosity , n, at r=R/2 (eq’n 8.27), and the ratio of turbulent-to-molecular viscosities n/u at this point [use the ut(y) core distribution eq’n 8.30 to get du/dy). Show steps clearly. Approx. Ans: (a)...
Water from a vertical pipe emerges as a 16-cm-diameter cylinder and falls straight down 7.5 m into a bucket. The water exits the pipe with a speed of 2.2 m/s. What is the diameter of the column of water as it hits the bucket?
Water from a vertical pipe emerges as a 18-cm-diameter cylinder and falls straight down 7.5 m into a bucket. The water exits the pipe with a speed of 2.0 m/s. What is the diameter of the column of water as it hits the bucket? Express your answer with the appropriate units.
4. Consider upwards, laminar flow in a vertical pipe of length L. (a) Starting with the NS equations given in 6.128 c. simplify the eq'ns, state the BCs in the coordinate system shown, solve for vír), wall shear stress tw, and the average flow speed V=Q/rR; (b) rearrange your result into the form , like EB CV relation, (AP/pg +1)=f* (LD)V/(29) for arbitrary length L, and show that the friction factor f= C2/Rc and evaluate C2 as a number. Follow...
Water with pressure of 190 kPa flows down hill through a pipe with a 3.90 cm diameter hose at a speed of 1.2 m/s. It then exits through a smaller pipe m of diameter 1.50 cm which is 5.00 m below the upper pipe. a. What is the speed of the water exiting at the lower pipe opening? b. What is the water pressure at the exit of the lower pipe. ?
Water is flowing through a horizontal pipe with diameter, D1, at
a velocity, V1, and under a pressure, P1. It enters a 900 reducing
bend (Shown in grey in Fig 2) that connects to a vertical pipe of
diameter, D2. The inlet of the bend is 50 cm above the exit of the
bend (as shown in Fig 2). Axes for positive directions of x and z
coordinates are provided. Figure 2 Side view of reducing bend from
horizontal to...
Ignore question [1], just need
the problem description from it.
[1] Water flowing in a pipe is determined to be moving at the velocities given in the diagram below. The higher level is 3 meters above the lower one and the pressure in the lower portion is measured to be 200 kPa. Determine the pressure inside the upper pipe Treat the water as an ideal fluid obeying Bernoulli's equation. Consider the path connecting poin in the lower pipe with point...
QUESTION 1 Water at 10 °C is flowing in a 90 bend pipe, with inner diameter of 150 mm, at an average velocity of 3.0 m/s and gauge pressure of 300 kPa. The pipe is laid in the horizontal plane as shown in figure below. The magnitude of the resultant (horizontal) force required to hold the bend in place is: a 5.46 kN b.7.72 kN Oc 10.92 kN d.5.15 kN . None of the other answers QUESTION 2 A 25.0...
、.. thetract i.210mari.otaeninslerationierate fror along whatlar track (distance measu ok'n perimeter) and begins to accelerate from rest. What constant tangential acceler needed for the car's total acceleration magnitude to be 6 m/s? when it reaches B? The radius of the track is 210n Assume that you ofusing (8 m)? Assume a cost or so.17 per k W-h of electricity. What is have constructed an elevator with an overall efficiency of 85%, what is the cost this elevator to raise itself...