Water (T = 20°C, v = 1 × 10-6 m2 /s) flows at a rate of...

Water flows in a 350-mm-diameter pipe at the rate of 600 liters per second. The pipe...

Water flows in a 350-mm-diameter pipe at the rate of 600 liters per second. The pipe has a length of 64 m. Compute the head loss: Using Darcy-Weisbach formula with f =0.028. Using Hazen-William’s formula with C1 = 92. Using Manning’s formula with n = 0.012.

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow...

1. Water flows in a 0.2 cm, 15-m long pipe at 1.2 m/s. Determine the flow regime, the pressure drop across the pipe, in kPa, the head loss through the pipe in m and the volume flow rate through the pipe, in L/s. [8-31*]

5. A house is situated 20 m above the datum. It has to be supplied water...

5. A house is situated 20 m above the datum. It has to be supplied water from nearby reservoir. The pipe length from the reservoir to the house is 200 m, diameter is 30 cm, flow has to be 0.2 m3/s. Friction loss allowed is 5+Z m and the pressure to be maintained in the pipe in the house is 20 kN/m2. Also consider minor losses (entrance and outlet). Calculate the height the reservoir has to be situated above the...

A house is situated 20 m above the datum. It has to be supplied water from...

A house is situated 20 m above the datum. It has to be supplied water from nearby reservoir. The pipe length from the reservoir to the house is 200 m, diameter is 30 cm, flow has to be 0.2 m3/s. Friction loss allowed is 5+Z m and the pressure to be maintained in the pipe in the house is 20 kN/m2. Also consider minor losses (entrance and outlet). Calculate the height the reservoir has to be situated above the datum?...

4. Oil of viscosity 2E-5 m2/s flows at 210 L/s through a pipe of roughness 0.038...

4. Oil of viscosity 2E-5 m2/s flows at 210 L/s through a pipe of roughness 0.038 mm. The head loss through the pipe is 0.42 m for every 100 m pipe length. Find the theoretical pipe diameter, in m, required to handle this situation.

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...

Water flows in a rectangular concrete channel that is 10 m wide and has a slope...

Water flows in a rectangular concrete channel that is 10 m wide and has a slope of 0.005. The depth of the uniform flow in the channel (y1) is 450 mm and the discharge per width of the water is 2.2 m2/s. The downstream channel is smooth, and a hydraulic jump is forced to form in the channel by installing a sill. Calculate: (i) the depth and velocity of the water downstream of the hydraulic jump; (ii) the difference in...

The mean velocity of water in a 150 mm horizontal pipe is 0.9 m/s. Calculate the...

The mean velocity of water in a 150 mm horizontal pipe is 0.9 m/s. Calculate the loss of head through an abrupt contraction to 50 mm diameter. If the pressure in the 150 mm pipe is 345 kPa, what is the pressure in the 50 mm pipe, neglecting pipe friction?

Water flows through a pipe at an average temperature of T =50°C. The inner and outer...

Water flows through a pipe at an average temperature of T =50°C. The inner and outer radii of the pipe are r1 = 6 cm and r2 = 6.5 cm, respectively. The outer surface of the pipe is wrapped with a thin electric heater that consumes 300 W per m length of the pipe. The exposed surface of the heater is heavily insulated so that the entire heat generated in the heater is transferred to the pipe. Heat is transferred...