(Linear momentum) Water flows through a right-angle valve at the
rate of 927 lbm/s, as is shown in the figure below. The pressure
just upstream of the valve is 93.3 psi, and the pressure drop
across the valve is 47.6 psi. The inside diameters of the valve
inlet and exit pipes are 12 and 24 in. If the flow through the
valve occurs in a horizontal plane, determine the
(a) x and (b) y
components of the force exerted by the valve on the water.
(a)
lb
(b)
lb
(Linear momentum) Water flows through a right-angle valve at the rate of 927 lbm/s, as is...
Chapter 05, Practice Problem 5.34 (Linear momentum) Water flows through a right-angle valve at the rate of 946 Ibm/s, as is shown in the figure below. The pressure just upstream of the valve is 85.1 psi, and the pressure drop across the valve is 46.9 psi. The inside diameters ofthe valve inlet and exit pipes are 12 and 24 in. If the flow through the valve occurs in a horizontal plane, determine the (a) and (b) γ components of the...
Chapter 05, Practice Problem 5.34 Your answer is incorrect. Try again (Linear momentum) Water flows and the pressure drop across the valve is 53.9 psi. The inside diameters of the valve inlet and exit pipes are 12 and 24 in. If the flow through the valve occurs in a horizontal plane, determine the (a) x and (b) y components of the force exerted by the valve on the water. a right-angle valve at the rate of 1100 Ibm/s, as is...
4. A reducing elbow is used to deflect water flow at a rate of 30 lbm/s in a horizontal pipe upward by an angle 30° from the flow direction while accelerating it. The elbow discharges water into the atmosphere. The diameter of the elbow is 4 inch at the inlet and 2 inch at the exit. The elevation difference between the centers of the exit and inlet is 40 inch. The mass of the elbow and the water in it...
Q2 Water flows at a rate of 0.08 m''min through a flanged tap with a partially closed gate valve spigot (Fig. Q2). The inner diameter of the pipe at the inlet and outlet is 2 cm and 1.5 cm respectively, and the gauge pressure of the water at inlet is measured to be 90 kPa. The pressure at outlet from the tap is atmospheric. The total mass of the tap assembly plus the water within it is 5.8 kg. (a)...
Water flows steadily through a curved duct that turns the flow
through angle = 135 degrees, as shown in Fig. 3. The
cross-sectional area of the duct changes from A1 = 0.025 m2 at the
inlet to A2 = 0.05 m2 at the outlet. The average velocity at the
duct inlet is V1 = 6 m/s. The momentum flux correction factor may
be taken as 1 = 1.01 at the duct inlet and 2 = 1.03 at the its
outlet....
Water flows steadily through a curved duct that turns the flow through angle @= 135º, as shown in Fig. 3. The cross-sectional area of the duct changes from A1 = 0.025 m² at the inlet to A2 = 0.05 m’ at the outlet. The average velocity at the duct inlet is V1 = 6 m/s. The momentum flux correction factor may be taken as B1 = 1.01 at the duct inlet and B2 = 1.03 at the its outlet. The...
please help...add sketch
Water flows steadily through a curved duct that turns the flow through angle = 1359, as shown in Fig. 3. The cross-sectional area of the duct changes from A1 = 0.025 m’ at the inlet to Az = 0.05 m² at the outlet. The average velocity at the duct inlet is V1 = 6 m/s. The momentum flux correction factor may be taken as B - 1.01 at the duct inlet and B = 1.03 at the...
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3. Water flows steadily through a curved duct that turns the flow through angle 0= 135º, as shown in Fig. 3. The cross-sectional area of the duct changes from Aj 0.025 m² at the inlet to A2 = 0.05 m² at the outlet. The average velocity at the duct inlet is V1 = 6 m/s. The momentum flux correction factor may be taken as Bi= 1.01 at the duct inlet and B2 = 1.03 at the...
Part 1 water flows through a ho zon a pipe bend asisillustrated in th gure below. The flow cross sect on area is constant at a value of gDao mm2 respectively. Calculate the horizontal (x and v) components of the anchoring farce needed to hold the bend in place ) compoes af the The flow velocity ถverywhere n the bend is 15 m s. The pressures at the cntrance and exit o the band are 210 and 159 the bend...
8-C) As shown below water is pumped and sprayed through a nozzle into the atmosphere at 20 m/s at an elevation 10 m above the reservoir surface. The mass flow rate is 40 kg/s and the volumetric flow rate is 0.040 m3/s. The large diameter inlet pipe total length is 50 m. The pump effidency is 65%. The longer smaller diameter pipe leaving the pump is 200 m in total length. The pipes have different diameters as indicated below. The...