Q3/ A petroleum crude oil having a kinematics viscosity 0.0001 m²/s is flowing through the piping arrangement shown in the below Figure,The total mass flow rate is equal 10 kg/s entering in pipe (A). The flow divides to three pipes ( B, C, D). The steel pipes are schedule 40 pipe. note that the dynamic viscosity 0.088 kg/m.s. Calculate the following using SI units: 1- The type of flow in pipe (A). 2- The mass velocity in pipe (B) GB. 3- The velocity in pipe (D) Up. 4- The Volumetric flow rate in pipe (D) QD.

Elements Of Electromagnetics
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Q3/ A petroleum crude oil having a kinematics viscosity 0.0001 m²/s is flowing through
the piping arrangement shown in the below Figure,The total mass flow rate is equal 10 kg/s
entering in pipe (A) . The flow divides to three pipes ( B, C, D). The steel pipes are schedule
40 pipe. note that the dynamic viscosity 0.088 kg/m.s.
Calculate the following using SI units:
1- The type of flow in pipe (A).
2- The mass velocity in pipe (B) GB.
3- The velocity in pipe (D) Up.
4- The Volumetric flow rate in pipe (D) QD.
5- The Volumetric flow rate in pipe (C) Qc.
Oe = 2 o mm
UB = 2UA
Perralenm
crude oL
mic =?
->
ma = 1o Kg/s
= 50 mm
Go
7000 K/m.s
%3D
Note that!.
= 30 mm
D: 0iameter,
UIvelocity
G mass velocity
mass How ate.
Transcribed Image Text:Q3/ A petroleum crude oil having a kinematics viscosity 0.0001 m²/s is flowing through the piping arrangement shown in the below Figure,The total mass flow rate is equal 10 kg/s entering in pipe (A) . The flow divides to three pipes ( B, C, D). The steel pipes are schedule 40 pipe. note that the dynamic viscosity 0.088 kg/m.s. Calculate the following using SI units: 1- The type of flow in pipe (A). 2- The mass velocity in pipe (B) GB. 3- The velocity in pipe (D) Up. 4- The Volumetric flow rate in pipe (D) QD. 5- The Volumetric flow rate in pipe (C) Qc. Oe = 2 o mm UB = 2UA Perralenm crude oL mic =? -> ma = 1o Kg/s = 50 mm Go 7000 K/m.s %3D Note that!. = 30 mm D: 0iameter, UIvelocity G mass velocity mass How ate.
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