5.26 A nozzle is attached to a vertical pipe and discharges water into the atmosphere as...
A nozzle is use to connect two pipes. When the discharge is 0.1 m/s, the gage pressure at the flange A is 40 kPa, and at B is 5 kPa. Determine the vertical component of the anchoring force required to hold the nozzle in place. The nozzle has a weight of 200 N, and the volume of water in the nozzle is 0.012 m. Is the anchoring force upward or downward? Area = 0.01 m Nozzle - p = 40...
This nozzle bends the flow from vertically upward to 50 with the horizontal and discharges water ? 62.4 lbr t3 at a speed of V-190 f s. The volume within the nozzle itself ?? 1.6 ft.. an the weight of the nozz e is 100 b For these conditions, what vertical force must be applied to the nozzle at the flange to hold it in place? 50 \ 0.50 ft2 Volume 1.8ft Flange 2 ft A1.0 ft2 lbf Click here...
Water flow in a pipe and then exit through a bended nozzle as shown in Figure 3. The nozzle is connected to the main pipe using a flanged joint at (1). The diameter of the pipe is D1 10 cm and is constant, whilst the diameter at the outlet section of the nozzle (2) is D2 3 em. The flowrate of the water is Q = 15 liter/s and the water pressure at the flange is Pi 230 kPa. By...
Water flows through the nozzle below and exits with a velocity of 60 ft/s. The flow area is 0.3 ft2 at the flange and 0.1 ft2 at the exit. Find the total force in the bolts at the flange. (assume inviscid flow and Pa14.7 psia atmospheric pressure) 2. (assume inviscid flow and P atmospheric pressure) C.V. V. P2 Pa
Air flows into the atmosphere from a nozzle and strikes a vertical plate as shown in below figure. The reading on the pressure gage was 1.82 kPa. Determine the horizontal force required to hold the plate in place. Assume the flow to be incompressible and frictionless. Also consider the density of air is 1.23 kg/m² and neglect the air weight. P-1.82 kPa F-IN A-0.003 m A-0.01 m
3. (20 pts) The curved nozzle shown carries fresh water at 20 °C and is installed vertically (the picture is a side view) with the jet exiting to the atmosphere at an angle of 30-degrees from horizontal The nozzle's weight is 30 N and from the flange connection to the exit it has an internal volume of 0.004 m. Determine the x- and 2- components of the anchoring force needed at the flange connection. V = 2 m/s Flange connection...
Water is discharged through an elbow nozzle as shown below. PB - Patm ds The exit velocity VB = 30 ft/s, the inlet diameter da = 0.5 ft, the exit diameter dB = 0.25 ft. For water density, use p = 32.2 lb/ft = 1.94 lb/ft. Assume steady flow. Neglect the weight of the nozzle and the water in the nozzle. The mass flow rate through the nozzle is 2.86 slug/s 11.4 slug/s O 92.0 slug/s 18.8 slug/s Determine the...
QUESTION 5 A curved nozzle assembly that discharges to the atmosphere is shown. The nozzle mass is 3 kg and its internal volume is 0.002 m3. The fluid is water. Determine the reaction force in x-direction Rx in unit of N exerted by the nozzle on the coupling to the inlet pipe. P1 =231 kPa absolute. D1 = 7 cm, D2 = 3 cm, angle = 250, V1=4.5 m/s. Round to the nearest one decimal place. V PI D у...
Air flows into the atmosphere from a nozzle and strikes a vertical plate as shown in below figure. The reading on the pressure gage was 1.82 kPa. Determine the horizontal force required to hold the plate in place. Assume the flow to be incompressible and frictionless. Also consider the density of air is 1.23 kg/m3 and neglect the air weight. P= 1.82 kPa F = ?? N A=0.003 m A = 0,01 m²
The "double nozzle lying in a horizontal plane discharges water (p = 1000 kg/m) into the atmosphere at a rate of 0.50 m/s. Jet A is 10 cm in diameter, jet B is 12 cm in diameter, and the pipe is 30 cm in diameter. Assume the water speed in each jet to be the same. Calculate the force component (E. and F.) acting through the flange bolts required to hold the nozzle in place? Jet Water