Problem P68 (6) Let's extend the previous problem. In our lectures, all the momentum problems clearly stated any losses (friction and/or local losses) could be considered negligible. For the given problem, are losses associated with this application? In other words, does the 100 kPa pressure reading account for losses through the bend? If so, determine the energy loss, h₁, between section 1 and section 2. Ans: h₁ = 7.88 m 300 mm 160 mm Diameter Jet P₁= 100 KPa Reducing Bend with Nozzle FRB/F

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
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Problem P68(b)
Let's extend the previous problem. In our lectures, all the
momentum problems clearly stated any losses (friction
and/or local losses) could be considered negligible.
For the given problem, are losses associated with this
application? In other words, does the 100 kPa pressure
reading account for losses through the bend? If so,
determine the energy loss, h₁, between section 1 and
section 2.
Ans: h₁ = 7.88 m
300 mm
160 mm
Diameter Jet
P₁ = 100 KPa
Reducing
Bend with
Nozzle
FRB/F
Transcribed Image Text:Problem P68(b) Let's extend the previous problem. In our lectures, all the momentum problems clearly stated any losses (friction and/or local losses) could be considered negligible. For the given problem, are losses associated with this application? In other words, does the 100 kPa pressure reading account for losses through the bend? If so, determine the energy loss, h₁, between section 1 and section 2. Ans: h₁ = 7.88 m 300 mm 160 mm Diameter Jet P₁ = 100 KPa Reducing Bend with Nozzle FRB/F
Problem P68 (a)
Determine the magnitude of the anchoring force needed to
hold the horizontal bend and nozzle in place.
The velocity at location 1 is known to be 2 m/s.
The pressure at location 1 of the 300 mm diameter pipe is
known to be 100 kPa.
The discharge at section 2 is in the form of a free jet to the
atmosphere.
Ans: F = 8.345 kN
300 mm
160 mm
Diameter Jet
P₁ = 100 KPa
Reducing
Bend with
Nozzle
FRB/F
Transcribed Image Text:Problem P68 (a) Determine the magnitude of the anchoring force needed to hold the horizontal bend and nozzle in place. The velocity at location 1 is known to be 2 m/s. The pressure at location 1 of the 300 mm diameter pipe is known to be 100 kPa. The discharge at section 2 is in the form of a free jet to the atmosphere. Ans: F = 8.345 kN 300 mm 160 mm Diameter Jet P₁ = 100 KPa Reducing Bend with Nozzle FRB/F
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