6. Ethane (T. = 305 K and P. = 4.9 MPa) with an initial temperature of 150 C and an initial volume of 0.0001 m³ is isothermally and reversibly expanded in a frictionless piston-cylinder assembly (i.e., closed system) from 20 MPa to 3.4 MPa. Determine: a) The moles of ethane using the real gas law; ( b) Ein 1 Ve

Introduction to Chemical Engineering Thermodynamics
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Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
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6. Ethane (T. = 305 K and P. = 4.9 MPa) with an initial temperature of 150 C and an initial volume of
0.0001 m³ is isothermally and reversibly expanded in a frictionless piston-cylinder assembly (i.e., closed
system) from 20 MPa to 3.4 MPa. Determine:
a) The moles of ethane using the real gas law; (
Z
b) Find the total amount of heat (in J) that is required to be provided into the system; !
c) Find the amount of expansion work (in J) done by the ethane; (¹
The following data is available and please use departure functions to compute the changes of properties.
1 cal/(mol K) = 4.184 J/(mol K)
State T, °C P, MPa
Initial 150
Final 150
20
3.4
Z SD, cal/(mol-K)
0.7
0.9
2.5
0.5
HD
Tc
cal/(mol-K)
4.5
0.8
Transcribed Image Text:6. Ethane (T. = 305 K and P. = 4.9 MPa) with an initial temperature of 150 C and an initial volume of 0.0001 m³ is isothermally and reversibly expanded in a frictionless piston-cylinder assembly (i.e., closed system) from 20 MPa to 3.4 MPa. Determine: a) The moles of ethane using the real gas law; ( Z b) Find the total amount of heat (in J) that is required to be provided into the system; ! c) Find the amount of expansion work (in J) done by the ethane; (¹ The following data is available and please use departure functions to compute the changes of properties. 1 cal/(mol K) = 4.184 J/(mol K) State T, °C P, MPa Initial 150 Final 150 20 3.4 Z SD, cal/(mol-K) 0.7 0.9 2.5 0.5 HD Tc cal/(mol-K) 4.5 0.8
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