Question 3) As seen in the figure, the vacuum pump provides air flow in an insulated pipe with a cross section of 49 mm². The air moves along a straight line in a room with a pressure of 100,9 kPa and a temperature of 29 °C. If the pressure in section 1 is 98,9 kPa and the temperature in section 2 is 19 °C; This is Fanno flow. (d=7,9mm) i) Calculate mass flow rate, ii) Calculate at section 1, flow velocity Uj, density, Mach number Maj, Re, f values ii) Calculate at section 2, find the stopping pressure and temperature, Mach number Ma2, U2 velocity, density, mass flow rate iv) Calculate friction coefficient and force on the channel walls between section 1 and 2. Solve the problem by making the necessary assumptions. v) Calculate L1-2 pipe length C, = 0.079 Re-0.25 and f = 4C, %3D expressions can also be used. Solve the problem by making the necessary assumptions and drawing the schematic figure.

Elements Of Electromagnetics
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Question 3) As seen in the figure, the vacuum pump provides air flow in an insulated pipe with a cross section
of 49 mm². The air moves along a straight line in a room with a pressure of 100,9 kPa and a temperature of 29
°C. If the pressure in section 1 is 98,9 kPa and the temperature in section 2 is 19 °C; This is Fanno flow.
(d=7,9mm)
i) Calculate mass flow rate,
ii) Calculate at section 1, flow velocity Uj, density, Mach number Maj, Re, f values
ii) Calculate at section 2, find the stopping pressure and temperature, Mach number Ma2, U2 velocity, density,
mass flow rate
iv) Calculate friction coefficient and force on the channel walls between section 1 and 2. Solve the problem by
making the necessary assumptions.
v) Calculate L1-2 pipe length
C, = 0.079 Re-0.25
and
f = 4C,
%3D
expressions can also be used.
Solve the problem by making the necessary assumptions and drawing the schematic figure.
Transcribed Image Text:Question 3) As seen in the figure, the vacuum pump provides air flow in an insulated pipe with a cross section of 49 mm². The air moves along a straight line in a room with a pressure of 100,9 kPa and a temperature of 29 °C. If the pressure in section 1 is 98,9 kPa and the temperature in section 2 is 19 °C; This is Fanno flow. (d=7,9mm) i) Calculate mass flow rate, ii) Calculate at section 1, flow velocity Uj, density, Mach number Maj, Re, f values ii) Calculate at section 2, find the stopping pressure and temperature, Mach number Ma2, U2 velocity, density, mass flow rate iv) Calculate friction coefficient and force on the channel walls between section 1 and 2. Solve the problem by making the necessary assumptions. v) Calculate L1-2 pipe length C, = 0.079 Re-0.25 and f = 4C, %3D expressions can also be used. Solve the problem by making the necessary assumptions and drawing the schematic figure.
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