Fluid flows into a junction at a flowrate Q, and exits via two pipes of equal diameter, as shown in figure Q5. The inlet pipe has a cross-sectional area A₁, and the outlet both have a cross-sectional area A.. Outlet pipe 2 is orientated at an angle 0₂ from the horizontal, and outlet is orientated 03 from the horizontal. a) If the flowrate in pipe 2 is aQ, find the flowrate in pipe 3. b) Find an expression for the horizontal force on the pipe junction. c) Fir an expression for the cal force acting on the pipe junction. d) If 0₂ 03 = 60°, find a such that there is no vertical force acting on the system. = A₁ A₁ Ao 0₂ 103 aQ
Fluid flows into a junction at a flowrate Q, and exits via two pipes of equal diameter, as shown in figure Q5. The inlet pipe has a cross-sectional area A₁, and the outlet both have a cross-sectional area A.. Outlet pipe 2 is orientated at an angle 0₂ from the horizontal, and outlet is orientated 03 from the horizontal. a) If the flowrate in pipe 2 is aQ, find the flowrate in pipe 3. b) Find an expression for the horizontal force on the pipe junction. c) Fir an expression for the cal force acting on the pipe junction. d) If 0₂ 03 = 60°, find a such that there is no vertical force acting on the system. = A₁ A₁ Ao 0₂ 103 aQ
Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)
8th Edition
ISBN:9781305387102
Author:Kreith, Frank; Manglik, Raj M.
Publisher:Kreith, Frank; Manglik, Raj M.
Chapter6: Forced Convection Over Exterior Surfaces
Section: Chapter Questions
Problem 6.34P
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