A fluid is flowing under laminar conditions in a cylindrical pipe of 2 cm diameter. The...

Consider a horizontal pipe in which a viscous fluid is moving at a laminar flow. The...

Consider a horizontal pipe in which a viscous fluid is moving at a laminar flow. The pressure drop across a 0.2-cm ID pipe was measured at 18,000 Pa/m. The fluid has a rho= 1110 kg/m3 and mu= 0.03 kg/m-s. Determine the equation that defines the velocity profile vz(r).Then, calculate the velocity at the center of the pipe (vzat r = 0 in m/s).

A fluid with SG:0,888 and viscosity:0,8 Pa s flows in horizontal pipe of diameter:5 cm and...

A fluid with SG:0,888 and viscosity:0,8 Pa s flows in horizontal pipe of diameter:5 cm and length:40 m.The measured velocity profile is of parabolic shape.The amount of pressure difference between inlet and exist of the pipe is 648,76 kPa.Determine Reynolds number of flow if the pipe is inclined at an angle 30 degree with horizontal and flow is upward with the same pressure difference is applied                        

A 2 m long pipe with a diameter of 30 cm carries a fluid of density...

A 2 m long pipe with a diameter of 30 cm carries a fluid of density 1051 kg/m3 and kinematic viscosity of 1.72 X 10^-5 m2/s . If the fluid in the center of the pipe is traveling at 5.5 m/s, what is the force needed to keep the pipe in place. Use the Blassius solution where needed.

Fluid with a specific gravity of 1.3 is flowing through a pipe of 1.1 m diameter....

Fluid with a specific gravity of 1.3 is flowing through a pipe of 1.1 m diameter. Considering dynamic viscosity of 0.3 N.s/m2 determine the type of flow for a velocity of 1.6 m/s, 0.36 m/s and 0.52 m/s respectively.

A liquid of density 1270 kg/m3 flows steadily through a pipe of varying diameter and height....

A liquid of density 1270 kg/m3 flows steadily through a pipe of varying diameter and height. At Location 1 along the pipe, the flow speed is 9.81 m/s and the pipe diameter d1 is 11.3 cm. At Location 2, the pipe diameter d2 is 17.1 cm. At Location 1, the pipe is Δy=9.59 m higher than it is at Location 2. Ignoring viscosity, calculate the difference ΔP in units of Pa between the fluid pressure at Location 2 and the...

Phenolic fluid at 30 ℃ flows in a cooler pipe with diameter and length at 5...

Phenolic fluid at 30 ℃ flows in a cooler pipe with diameter and length at 5 cm and 100 cm, respectively. The temperature of pipe wall is assumed at 300℃. Calculate the heat recovery rate of the fluid. Assume that the Nusselt equation for this system is : Nu = 0.023Re0.8Pr0.4 Fluid velocity:100m/s

Water flows at a rate of 30 L/min through a horizontal 7.0-cm-diameter pipe under a pressure...

Water flows at a rate of 30 L/min through a horizontal 7.0-cm-diameter pipe under a pressure of 80 Pa. At one point, calcium deposits reduce the cross-sectional area of the pipe to 20 cm^2. What is the pressure at this point? Consider the water to be an ideal fluid.

Fluid is flowing through the pipe with radius of 2 m at the rate of 8...

Fluid is flowing through the pipe with radius of 2 m at the rate of 8 m/s. if fluid’s kinematic viscosity is 1.004 x 10-6 m/s2, and pipe’s roughness is 0.015 x 10-3 m. Set up Colebrook equation for friction factor. Solve the equation either by using solver or by plugging in a value from Moody’s chart and iterating, if necessary. Determine pressure drop, if fluid’s dynamic viscosity is 1.0035 x 10-3

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...

Hydraulic oil is flowing through a 80 mm diameter horizontal pipe with a flow rate of...

Hydraulic oil is flowing through a 80 mm diameter horizontal pipe with a flow rate of 1.5 litres per -3 second. At a certain point the diameter changes to 5 cm. Assume the oil’s density is 870 kg.m . (a) Calculate the velocity in SI units through the wider diameter section of the pipe. (b) Calculate the velocity in SI units through the narrower section of the pipe. (c) What is the pressure difference between the larger and smaller sections...