Determine the equation for the system curve of a pipeline consisting of an 8'' diameter pipe...

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface...

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface elevation difference between the two reservoirs is 16 ft. Find the flowrate (a) assuming head loss is only due to pipe friction, and (b) Accounting for both friction losses and minor losses due to a flush square-edged pipe entrance, the pipe exit, and a half-open gate valve in the line. Assume the water temperature is 60°F

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface...

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface elevation difference between the two reservoirs is 16 ft. Find the flowrate: (a) assuming head loss is only due to pipe friction, and (b) accounting for both friction losses and minor losses due to a flush square-edged pipe entrance, the pipe exit, and a half-open gate valve in the line. Assume the water temperature is 60°F.

Gasoline at T = 68∘F flows through an 8-in.-diameter smooth pipe at the rate of 4.15...

Gasoline at T = 68∘F flows through an 8-in.-diameter smooth pipe at the rate of 4.15 ft3/s. Use the equation 1f√=−1.8log[(ε/D3.7)1.11+6.9Re], where ε = 0 ft. Determine the head loss in a 20-ft-long segment of the pipe

3.- An ABCD series Piping system consists of 6000 m of 40cm pipe, 3000 m of...

3.- An ABCD series Piping system consists of 6000 m of 40cm pipe, 3000 m of 30 cm pipe and 1500 m of 20 cm pipe (C1 = 100). Calculate: a) .- The flow when the head loss between A and D is 60 m. Consider f = 0.02 b) .- The equivalent length if the pipe were 30 cm. c) .- The flow when the head loss between A and D is 60 m.

For a discharge of 1.5 cfs, determine the head loss in each component and the total...

For a discharge of 1.5 cfs, determine the head loss in each component and the total head loss across an entire series pipe system laid out in a horizontal plane, constructed of welded steel pipe, and consisting of the following components arranged in series: 350 ft of 4-inch diameter pipe, a 90° bend, 4-inch gate valve in the fully open position, an additional 60 ft of 4-inch pipe, sudden expansion to 6-inch diameter, 350 ft of 6-inch pipe, sudden contraction...

Water flow horizontally for 4 m through a 65mm diameter cast iron pipe at an average...

Water flow horizontally for 4 m through a 65mm diameter cast iron pipe at an average velocity of 2 ms-1before an 90 degree elbow changes the direction of the flow downwards for a further 9 m. A ball valve is fitted at the end of the 9 m length of pipe. Determine the pressure at the pipe inlet if the ball valve is fully opend.(density of water = 998 kgm-3 , u=8.9*10^-4 Pas) I just calculated the friction losses before...

1- Water flows in a 10 m long and 4 cm diameter pipe contains 4 elbows...

1- Water flows in a 10 m long and 4 cm diameter pipe contains 4 elbows ( KL= 0.2 ) at velocity 8 m/s. Calculate the total head losses when the friction factor f=0.03 35.56 m 22.07 m 27.07 m 15.46 m 2- water flows in a 10 m long and 5 cm diameter horizontal pipe at rate 15 l/s Calculate the pressure drop Take the density of water 1000 kg/m3 and the dynamic viscosity 0.001 kg/m.s 74.13 kPa 96.41...

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along...

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along 500 m length. Given: dynamic viscosity, μ and density, ρ of SAE 10 oil are 1.04 x 10-1 Ns/m2 and 917 kg/m3 respectively. By assuming the flow is laminar, determine energy head and pressure loss due to pipe friction using Hagen-Poiseuille equation and friction factor, f.

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area...

A long 8-cm-diameter steam pipe whose external surface temperature is 90°C passes through some open area that is not protected against the winds. Determine the rate of heat loss from the pipe per unit of its length when the air is at 1 atm pressure and 7°C and the wind is blowing across the pipe at a velocity of 47 km/h. The properties of air at 1 atm and the film temperature of (Ts + T∞)/2 = (90 + 7)/2...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of...

1) A nozzle is a device for increasing the velocity of a steadily flowing stream of fluid. At the inlet to a certain nozzle the enthalpy of the fluid is 3025 kJ/kg and the velocity is 60 m/s. At the exit from the nozzle the enthalpy is 2790 kJ/kg. The nozzle is horizontal and there is negligible heat loss from it. (i) Find the velocity at the nozzle exit. (ii) If the inlet area is 0.1 m2 and specific volume...