Solve please, should 100% sure of ans. Air enters a well-insulated turbine operating at steady state with a negligible velocity at 4 MPa and 300 oC, It exits the turbine at 100 kPa pressure at 100 oC. The diameter of the exit pipe is 60 cm. The velocity at exit is 90 m/s. a. What is the volumetric flow are at the exit? Express your result in units of m3/s. b. What is the molar flow rate at the exit? Assume that at the exit conditions, air may be considered to behave like an ideal gas. Express your results in units of mols/s c. What is the mas flow rate? Express your result in units of kg/s.
Solve please, should 100% sure of ans. Air enters a well-insulated turbine operating at steady state with a negligible velocity at 4 MPa and 300 oC, It exits the turbine at 100 kPa pressure at 100 oC. The diameter of the exit pipe is 60 cm. The velocity at exit is 90 m/s. a. What is the volumetric flow are at the exit? Express your result in units of m3/s. b. What is the molar flow rate at the exit? Assume that at the exit conditions, air may be considered to behave like an ideal gas. Express your results in units of mols/s c. What is the mas flow rate? Express your result in units of kg/s.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Solve please, should 100% sure of ans.
Air enters a well-insulated turbine operating at steady state with a negligible velocity at
4 MPa and 300 oC, It exits the turbine at 100 kPa pressure at 100 oC. The diameter of the exit pipe is
60 cm. The velocity at exit is 90 m/s.
a. What is the volumetric flow are at the exit? Express your result in units of m3/s.
b. What is the molar flow rate at the exit? Assume that at the exit conditions, air may be considered to
behave like an ideal gas. Express your results in units of mols/s
c. What is the mas flow rate? Express your result in units of kg/s.
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