A 3.19 kg/s of oxygen gas enters a compressor with the shown conditions and then enters the heat exchanger and exists at

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A 3.19 kg/s of oxygen gas enters a compressor with the shown conditions and then enters the heat exchanger and exists at

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A 3 19 Kg S Of Oxygen Gas Enters A Compressor With The Shown Conditions And Then Enters The Heat Exchanger And Exists At 1
A 3 19 Kg S Of Oxygen Gas Enters A Compressor With The Shown Conditions And Then Enters The Heat Exchanger And Exists At 1 (42.88 KiB) Viewed 34 times
A 3 19 Kg S Of Oxygen Gas Enters A Compressor With The Shown Conditions And Then Enters The Heat Exchanger And Exists At 2
A 3 19 Kg S Of Oxygen Gas Enters A Compressor With The Shown Conditions And Then Enters The Heat Exchanger And Exists At 2 (42.88 KiB) Viewed 34 times
A 3.19 kg/s of oxygen gas enters a compressor with the shown conditions and then enters the heat exchanger and exists at the shown temperature. The compressor consumes 700 kW of power and a helium gas enters the same heat exchanger at temperature T4 = 420.3 C and exists at Ts = 742 C. What is the mass flow rate of the helium gas (kg/s)? Note: Enter your answer. Helium Wc Answer: 0.1561 Compressor Is t 477 www ww 7; = 500 K 02 Heat exchanger P = 100 kPa T, = 350 K nii
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