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800 kg/m') flows with a 5. 10-2 N-s/rn"; ρ A fluid (μ mean velocity of 500...
Question 2 -Laminar Flow A liquid (ρ = 1000 kg/m3; μ = 10-1 N . s/2...
Question 2 -Laminar Flow A liquid (ρ = 1000 kg/m3; μ = 10-1 N . s/2 m: v-104 m2/s) flows uniformly with a mean velocity of 1.5 m/s in a pipe with a diameter of 100 mm. Show that the flow is laminar. Also, find the friction factor fand the head loss per meter of pipe length.
1. Water (at 70 o C) flows with a velocity of 1 m/s in a 2...
1. Water (at 70 o C) flows with a velocity of 1 m/s in a 2 cm diameter pipe. The pipe wall temperature is at 100 o C. (a) What is the heat transfer from the pipe wall to the fluid? (b) Determine the critical velocity at which the flow would be characterized as laminar and for this flow velocity calculate the heat transfer (c) Assume the diameter of the pipe is doubled while all other conditions remain the same....
QUESTION 3 a) The velocity of a fluid over a solid surface can be assumed to...
QUESTION 3 a) The velocity of a fluid over a solid surface can be assumed to obey the Prandtl power law as shown by the equation below. The equation shows that the velocity of the fluid varies with the thickness of boundary layer, 8. us Calculate the thickness of the laminar sub-layer when benzene flows through a pipe 50 mm in diameter at 2000 cm/s. What is the velocity of the benzene at the edge of the laminar sub-layer? Assume...
Q1. A fluid of specific gravity 0.90 flows at a Reynolds number of 1500 in a...
Q1. A fluid of specific gravity 0.90 flows at a Reynolds number of 1500 in a pipeline with diameter 0.3 m. The velocity at 100 mm from the wall is 3 m/s. Calculate the flowrate and the velocity gradient at the wall. Q2. Water flows through a pipe AB of diameter d = 50 mm, which is in series with a pipe BC of diameter d2 = 75 mm in which the mean velocity V2 = 2 m/sec. Q1 =...
Question 2 (a) An incompressible fluid of density ρ and viscosity μ flows through a curved...
Question 2 (a) An incompressible fluid of density ρ and viscosity μ flows through a curved duct that turns the flow through angle θ. (ii) (iii) (i) Write an expression for the horizontal force F of the fluid on the walls of the duct in 4 marks) terms of the given variables (ignore the gravity); Calculate the force Fx, when: θ = 135°, ρ = 9982 kg/m , μ=1.003x10-3 kg/m.s., Al = 0.025 m2, A2-0.05 m, Vi-6 m/s, Plaage-78.47 kPa,...
Determine the velocity of fluid in m/s at the throat (at the smaller diameter of the...
Determine the velocity of fluid in m/s at the throat (at the
smaller diameter of the pipe), and the mass flow rate of the fluid
at the inlet, if the flow is coming from left to right in a system
as shown below. Specific gravity of the flowing fluid is 1.2, and
density of water is 1,000 kg/m^3.
Find: A) velocity of fluid (m/s) at the throat, & B) mass
flow rate of the fluid at the inlet.
P1 =...
1. a. A fluid of density 1400 kg/mand viscosity of 0.9 kg/m.s flows through an 80...
1. a. A fluid of density 1400 kg/mand viscosity of 0.9 kg/m.s flows through an 80 mm diameter pipe with a velocity of 5 m/s. What type of flow exists in the pipe? Justify your answer. (2 marks) b. A shaft 70 mm in diameter is being pushed at a speed of 400 mm/s through a bearing sleeve 70.2 mm in diameter and 250 mm long. The clearance, assumed uniform, is filled with oil with kinematic viscosity v = 0.005...
5.16. Water is flowing in a 3-cm-diameter pipe at an average velocity of Uav 2 m/s....
5.16. Water is flowing in a 3-cm-diameter pipe at an average velocity of Uav 2 m/s. Assuming water density of ρ-1000 kg/m 3 and viscosity μ-10-3 N s'm2, calculate the velocity at the center of the pipe, the shear τ at the wall, and the Reynolds number. Assuming laminar flow, calculate friction coefficient C and pressure drop dp/dx.
6-7. Oil flows through the 100-mm-diameter pipe with a velocity of 8 m/s. If the pressure...
6-7. Oil flows through the 100-mm-diameter pipe with a velocity of 8 m/s. If the pressure in the pipe at A and B is assumed to be 60 kPa, determine the x and y components of force the flow exerts on the elbow. The flow occurs in the horizontal plane. Take ρο -900 kg/m3 8 m/s 30° 100 mm 100 mm
Determine the velocity of fluid in m/s at the throat (ie at smaller diameter of the...
Determine the velocity of fluid in m/s at the throat (ie at smaller diameter of the pipe), if the flow is coming from left to right in a system as shown below Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 215 0.225 0598 0.000
Question 2 -Laminar Flow A liquid (ρ = 1000 kg/m3; μ = 10-1 N . s/2 m: v-104 m2/s) flows uniformly with a mean velocity of 1.5 m/s in a pipe with a diameter of 100 mm. Show that the flow is laminar. Also, find the friction factor fand the head loss per meter of pipe length.
QUESTION 3 a) The velocity of a fluid over a solid surface can be assumed to obey the Prandtl power law as shown by the equation below. The equation shows that the velocity of the fluid varies with the thickness of boundary layer, 8. us Calculate the thickness of the laminar sub-layer when benzene flows through a pipe 50 mm in diameter at 2000 cm/s. What is the velocity of the benzene at the edge of the laminar sub-layer? Assume...
Q1. A fluid of specific gravity 0.90 flows at a Reynolds number of 1500 in a pipeline with diameter 0.3 m. The velocity at 100 mm from the wall is 3 m/s. Calculate the flowrate and the velocity gradient at the wall. Q2. Water flows through a pipe AB of diameter d = 50 mm, which is in series with a pipe BC of diameter d2 = 75 mm in which the mean velocity V2 = 2 m/sec. Q1 =...
Question 2 (a) An incompressible fluid of density ρ and viscosity μ flows through a curved duct that turns the flow through angle θ. (ii) (iii) (i) Write an expression for the horizontal force F of the fluid on the walls of the duct in 4 marks) terms of the given variables (ignore the gravity); Calculate the force Fx, when: θ = 135°, ρ = 9982 kg/m , μ=1.003x10-3 kg/m.s., Al = 0.025 m2, A2-0.05 m, Vi-6 m/s, Plaage-78.47 kPa,...
Determine the velocity of fluid in m/s at the throat (at the
smaller diameter of the pipe), and the mass flow rate of the fluid
at the inlet, if the flow is coming from left to right in a system
as shown below. Specific gravity of the flowing fluid is 1.2, and
density of water is 1,000 kg/m^3.
Find: A) velocity of fluid (m/s) at the throat, & B) mass
flow rate of the fluid at the inlet.
P1 =...
1. a. A fluid of density 1400 kg/mand viscosity of 0.9 kg/m.s flows through an 80 mm diameter pipe with a velocity of 5 m/s. What type of flow exists in the pipe? Justify your answer. (2 marks) b. A shaft 70 mm in diameter is being pushed at a speed of 400 mm/s through a bearing sleeve 70.2 mm in diameter and 250 mm long. The clearance, assumed uniform, is filled with oil with kinematic viscosity v = 0.005...
5.16. Water is flowing in a 3-cm-diameter pipe at an average velocity of Uav 2 m/s. Assuming water density of ρ-1000 kg/m 3 and viscosity μ-10-3 N s'm2, calculate the velocity at the center of the pipe, the shear τ at the wall, and the Reynolds number. Assuming laminar flow, calculate friction coefficient C and pressure drop dp/dx.
6-7. Oil flows through the 100-mm-diameter pipe with a velocity of 8 m/s. If the pressure in the pipe at A and B is assumed to be 60 kPa, determine the x and y components of force the flow exerts on the elbow. The flow occurs in the horizontal plane. Take ρο -900 kg/m3 8 m/s 30° 100 mm 100 mm
Determine the velocity of fluid in m/s at the throat (ie at smaller diameter of the pipe), if the flow is coming from left to right in a system as shown below Specific gravity of the flowing fluid is 1.2. Density of water is 1000 kg/m3 P1 = 735 kPa P2 = 550 kPa Flow Direction 31 mm 19 mm 215 0.225 0598 0.000
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