2. An ideal gas, following the relationship (Pv = 75 m2/s²), flows in a horizontal pipe at a constant temperature. The internal diameter of the pipe is 0.025 m and the pressure drop is 11 kPa for each 5m length. Calculate the mass flow rate per unit area in kg/sm2, assuming the pressure at the end of the pipe is 12 kpa and the friction factor f = 0.009. Ignore the kinetic %3D energy.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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2. An ideal gas, following the relationship (Pv = 75 m2/s²), flows in a
horizontal pipe at a constant temperature. The internal diameter of the pipe is
0.025 m and the pressure drop is 11 kPa for each 5m length. Calculate the
mass flow rate per unit area in kg/sm2, assuming the pressure at the end of
the pipe is 12 kpa and the friction factor f = 0.009. Ignore the kinetic
energy.
Transcribed Image Text:2. An ideal gas, following the relationship (Pv = 75 m2/s²), flows in a horizontal pipe at a constant temperature. The internal diameter of the pipe is 0.025 m and the pressure drop is 11 kPa for each 5m length. Calculate the mass flow rate per unit area in kg/sm2, assuming the pressure at the end of the pipe is 12 kpa and the friction factor f = 0.009. Ignore the kinetic energy.
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