10. A stream of 2 kg/s of CH, at 1.6 bar and and 140 K is compressed adiabatically to 50 bar and 400 K in a steady-state process. Compute the following using the method of your choice (suggested: P-H diagram for thermodynamic properties of methane). For CH₁: T. 190.6 K, P = 4.604 MPa, w = 0.011 <) AH = Hout - Hin (kJ/kg) (b) AS Sout-Sin (J/(kg-K)) (c) The rate of effective shaft work on the gas: W, (kW) (d) (... The rate of heat released: (kW) -, The rate of entropy generated: Sen (W/K)
10. A stream of 2 kg/s of CH, at 1.6 bar and and 140 K is compressed adiabatically to 50 bar and 400 K in a steady-state process. Compute the following using the method of your choice (suggested: P-H diagram for thermodynamic properties of methane). For CH₁: T. 190.6 K, P = 4.604 MPa, w = 0.011 <) AH = Hout - Hin (kJ/kg) (b) AS Sout-Sin (J/(kg-K)) (c) The rate of effective shaft work on the gas: W, (kW) (d) (... The rate of heat released: (kW) -, The rate of entropy generated: Sen (W/K)
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:10. A stream of 2 kg/s of CH, at 1.6 bar and and 140 K is compressed adiabatically to 50 bar and 400 K
in a steady-state process. Compute the following using the method of your choice (suggested: P-H diagram for
thermodynamic properties of methane).
For CH₁: T.
190.6 K, P = 4.604 MPa, w = 0.011
<) AH = Hout - Hin (kJ/kg)
(b)
AS Sout-Sin (J/(kg-K))
Transcribed Image Text:(c)
The rate of effective shaft work on the gas: W, (kW)
(d) (... The rate of heat released: (kW)
-, The rate of entropy generated: Sen (W/K)
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