A galvanised iron pipe is required to carry water at a discharge of 250 m3/hr and...

A galvanised iron pipe is required to carry water at a discharge of 250 m3/hr and...

A galvanised iron pipe is required to carry water at a discharge of 250 m3/hr and with a permissible head loss of 3 m per kilometre What is the friction factor?  Enter the friction factor with four significant figures.

A galvanised iron pipe is required to carry water at a discharge of 300 m3/hr and...

A galvanised iron pipe is required to carry water at a discharge of 300 m3/hr and with a permissible head loss of 3.2 m per kilometre. What is the minimum size of the galvanised pipe?

. 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 centrifugal pump with a 10 cm suction pipe and a 7.5 cm diameter discharge pipe...

A centrifugal pump with a 10 cm suction pipe and a 7.5 cm diameter discharge pipe has a measured capacity of 0.019 m3/s (water), a suction side vacuum of 20 cm mercury (relative density = 13.6) and a discharge pressure of 240345 N/m2 (gage).  The suction and discharge pipes are at the same elevation.  Assuming that the head loss due to friction is negligible, what is the pump power required

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.

Water (ρ = 999 kg/m3, μ = 1.3x10-3 N/s) from a large tank with P1 flows...

Water (ρ = 999 kg/m3, μ = 1.3x10-3 N/s) from a large tank with P1 flows through a pipeline at the rate of 0.14 m3/s to atmosphere as shown. The pipe diameter of the entire piping system is 20 cm and material is cast iron. Knowing discharge velocity V2 is the same as the flow velocity in the pipe, no discharging nozzle loss, Kinlet = 0.5, and Kelbow = 1.1, calculate the absolute P1 (MPa) in the tank needed to...

A 6.8-km cast-iron (new, uncoated) pipeline conveys 285 L/s of water at 10oC. If the pipe...

A 6.8-km cast-iron (new, uncoated) pipeline conveys 285 L/s of water at 10oC. If the pipe diameter is 32 cm, determine the friction head loss (in m) calculated using the Hazen-Williams equation. Use typical values for pipe roughness, as needed. Ch = 130 for new , uncoated pipeline Select one: a. 99.53 b. 552.8 c. 225.2 d. 146.1

A pump is used to deliver water from a large reservoir to another large reservoir that...

A pump is used to deliver water from a large reservoir to another large reservoir that is 20 m higher. The inlet of the pipe is submerged in the one reservoir and the exit is just above the surface of the other reservoir. If the friction head loss in the 200-mm-diameter, 4-km-long pipeline is 2.5 m for every 500 m of pipe length, determine the required power output of the pump so the flow is 0.6 m3/s.

Crude oil flows through a level section of the Alaskan pipeline at a rate of 250...

Crude oil flows through a level section of the Alaskan pipeline at a rate of 250 thousand cubic meters per day. The pipe inside diameter is 1000 mm; its roughness is equivalent to that of galvanized iron. The maximum allowable pressure is 8.3 MPa; the minimum pressure required to keep dissolved gases in solution in the crude oil is 340 kPa. The crude oil has SG = 0.93; its viscosity at the pumping temperature of 60 oC is  μ= 0.017 kg/(m...

Two alternative piping schemes are being considered by a water treatment facility. Head and horsepower are...

Two alternative piping schemes are being considered by a water treatment facility. Head and horsepower are reflected in the hourly cost of operation (information not needed for this problem). On the basis of a 10-year life and an interest rate of 12%, what is most nearly the number of hours of operation per year at which Alternative B becomes more cost efficient? Alternative A Alternative B Pipe diameter 4 in 6 in Head loss for required flow 48 ft 26...