10.37 A commercial steel pipe is required to carry glycerin at T = 20∘C with a...

Consider the fully developed flow of glycerin at 40C Trough a 70m long, 4 cm diameter,...

Consider the fully developed flow of glycerin at 40C Trough a 70m long, 4 cm diameter, horizontal, circular pipe. if the flow velocity at the centerline is measured to be 6 m/s, determinate the velocity profile and the pressure difference across this 70m long section of the pipe, and the useful pumping power required to maintain this flow.

6) Air at 288 K and 275 kPa abs enters a pipe and is flowing in...

6) Air at 288 K and 275 kPa abs enters a pipe and is flowing in isothermal compressible flow in a commercial pipe having an ID of 0.080 m. The length of the pipe is 60 m. The mass velocity at the entrance to the pipe is 165.5 kg/m2 · s. Assume 29 for the mol ecular weight of air. Calculate the pressure at the exit.

1) In a section of horizontal pipe with a diameter of 4.0 cm, the pressure is...

1) In a section of horizontal pipe with a diameter of 4.0 cm, the pressure is 115 kPa and water is flowing with a speed of 1.5 m/s. The pipe narrows to a 3.0-cm diameter. What is the pressure in kPa in the narrower region? Treat the water as an ideal incompressible fluid. 2) A 55-cm tall, 8.0-cm-diameter cylindrical container is filled to its brim with glycerin. What is the force acting on the bottom of the container? 3) For...

Methane gas is being pumped through a 305-m length of 52.5-mm-ID steel pipe at the rate...

Methane gas is being pumped through a 305-m length of 52.5-mm-ID steel pipe at the rate of 41.0 kg/(m2 · s). The inlet pressure is p1 = 345 kPa abs. Assume isothermal flow at 288.8 K. p2 = 298.4 kPa. What is the velocity (V2) at the end of the pipe? The viscosity is 1.04 × 10?5 Pa · s. (Answer V2= 20.62 m/s, show all work)

compressible flow: A subsonic flow of air passes through a pipe of 2.5-cm diameter which is...

compressible flow: A subsonic flow of air passes through a pipe of 2.5-cm diameter which is choked at the exit. At the pipe inlet, the stagnation pressure is 700 kPa and the stagnation temperature is 330 K. If f¯ = 0.022 and the pipe length is 12 m, what will be the mass flow rate through the pipe, in kg/sec?

Oil, with ?=860 kg/m3 and µ=0.06 kg/m ?s, flows through a horizontal pipe of 15 m...

Oil, with ?=860 kg/m3 and µ=0.06 kg/m ?s, flows through a horizontal pipe of 15 m length. The power delivered to the flow is 1 hp. If friction losses are to be neglected and the flow is at the laminar transition point (a) What is the appropriate pipe diameter? (b) For this condition, what are Q in m3/h; and (c) ?W in kPa?

. A galvanized iron service pipe ( ϵ = 0.15 mm) is required to deliver a...

. A galvanized iron service pipe ( ϵ = 0.15 mm) is required to deliver a flow rate of 0.5 m3/s. If the length of the pipe is 200 m and the head loss is not to exceed 50 m, calculate the minimum pipe diameter that can be used by trial and error. Assume an initial value of 0.025 for f. Please show all work

A horizontal pipe with an outer surface temperature of 80 * C and an outside diameter...

A horizontal pipe with an outer surface temperature of 80 * C and an outside diameter of 100 mm is located in a room at atmospheric pressure at 20 ° C. Find the required pipe length for the loss of heat from the pipe to 1 kW. (Physical properties for air k = 0.0287 W / mK, Pr = 0.70, v = 19x10-6 m² / s)

Water is flowing at the rate of 1.676 m/s in a 3.068 inches’ diameter horizontal pipe...

Water is flowing at the rate of 1.676 m/s in a 3.068 inches’ diameter horizontal pipe at a pressure p1 of 68.9 kPa. It then passes to a pipe having an inside diameter of 2.067 inch. The density of the water is 998 kg/m3 . a) Calculate the new pressure p2 in the 2.067inch pipe. Assume no friction losses b) If the piping is vertical and the flow is upward, calculate the new pressure p2. The pressure tap for p2...

Air at 373°C and 121 kPa flows through a horizontal 7 cm diameter pipe at a...

Air at 373°C and 121 kPa flows through a horizontal 7 cm diameter pipe at a speed of 50 m/s. If the air changes temperature to 375°C at a constant pressure, what is the value of the change in the flow of kinetic energy? Write your result in J/s.