A 1.6 m' tank is filled with air at a pressure of 5 bar and a temperature of 100°C. The air is then let off to the atmosphere through a valve. Assuming no heat transfer, determine the work obtainable by utilizing the kinetic energy of the discharge air to run a frictionless turbine. Take : Atmospheric pressure I bar; e, for air I kJ/kg K; c, for air 0.711 k/kg K.
A 1.6 m' tank is filled with air at a pressure of 5 bar and a temperature of 100°C. The air is then let off to the atmosphere through a valve. Assuming no heat transfer, determine the work obtainable by utilizing the kinetic energy of the discharge air to run a frictionless turbine. Take : Atmospheric pressure I bar; e, for air I kJ/kg K; c, for air 0.711 k/kg K.
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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os/ A 1.6m’ tank is filled with air ata pressure of § bar and a temperature of 100°C, The air is then let off to the atmosphere through a valve. Assuming no heat transfer, determine the work obtainable by utilizing the kinctic energy of the discharge air to run a frctionless turbine. Take : Atmospheric pressure = | bar ; ¢, for air = 1 Kikg K : ¢, for air = 0.711 KkgK.
Transcribed Image Text:Q5/
A 1.6 m' tank is filled with air at a pressure of 5 bar and a temperature of 100°C.
The air is then let off to the atmosphere through a valve. Assuming no heat
transfer, determine the work obtainable by utilizing the kinetic energy of the
discharge air to run a frictionless turbine.
Take : Atmospheric pressure = I bar ; c, for air 1 kJ/kg K; c, for air 0.711
kJ/kg K.
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