Water flows steadily through the elbow-nozzle assembly shown in the figure. The assembly is in the vertical plane (the plane of the paper) and gravity acts as indicated. The assembly is supported entirely by the flange bolts which must resist forces in the x- and y-directions as well as a moment (i.e. resist "rotation"). For purposes of this analysis, you may assume that all flange reactions are concentrated at the dark "dot" at the centerline of the flange. The available information about the geometry and operating conditions of the assembly are shown in the figure. The weight of the Elbow-Nozzle Assembly (with water) acts at "G". Determine the forces and moment (the reactions) at the flange to support the elbow-nozzle assembly.

Water flows steadily through the elbow-nozzle assembly shown in the figure. The assembly is in the vertical plane (the plane of the paper) and gravity acts as indicated. The assembly is supported entirely by the flange bolts which must resist forces in the x- and y-directions as well as a moment (i.e. resist "rotation"). For purposes of this analysis, you may assume that all flange reactions are concentrated at the dark "dot" at the centerline of the flange. The available information about the geometry and operating conditions of the assembly are shown in the figure. The weight of the Elbow-Nozzle Assembly (with water) acts at "G". Determine the forces and moment (the reactions) at the flange to support the elbow-nozzle assembly.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Fluid Dynamics

The study of the flow of gases and liquids, usually in and around solid surfaces, is known as fluid dynamics in physics and engineering. Fluid dynamics, for example, can be used to evaluate the movement of air through an airplane wing or the surface of a vehicle. It can also be used in ship design to increase the speed at which ships pass through water.

Question

Problem 17.1
Water flows steadily through the elbow-nozzle assembly shown in the figure. The assembly is in the
vertical plane (the plane of the paper) and gravity acts as indicated. The assembly is supported entirely
by the flange bolts which must resist forces in the x- and y-directions as well as a moment (i.e. resist
"rotation"). For purposes of this analysis, you may assume that all flange reactions are concentrated at
the dark "dot" at the centerline of the flange. The available information about the geometry and
operating conditions of the assembly are shown in the figure. The weight of the Elbow-Nozzle Assembly
(with water) acts at "G".
Determine the forces and moment (the reactions) at the flange to support the elbow-nozzle assembly.
(1) At the Flange
Ac.1 = 0.450 m²
P₁ = 400 kPa
V₁ = 3 m/s
(2) At the Nozzle
Ac.2=0.050 m²
P₂ = 100 kPa
Flange
Mass of Elbow-Nozzle
Assembly with water
m = 4000 kg
0.30 m
2
1.0 m
g
Atmospheric
Pressure
Patm = 100 kPa
1.0 m
1.0 m
Partial Answer: 150 kN < F<190 kN; 25 kN-m <|M₂|< 50 kN-m

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Step 1: Write the given data and what is to find

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Step 2: Draw the free body diagram:

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Step 3: Calculate the velocity of flow at section 2:

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Step 4: Determine the gauge pressures at both the sections 1 and 2:

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Step 5: Calculate the magnitude and direction of the horizontal reaction force at the flange:

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Step 6: Calculate the magnitude and direction of the vertical reaction force at the flange:

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Step 7: Calculate the magnitude and direction of the reaction moment at the flange:

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