03) Two-gram moles of carbon dioxide are heated from 400°C to 1100°C. Calculate AH by integrating the heat capacity equation for carbon dioxide. Compare your result with the value calculated from the enthalpy tables for the combustion gases.
03) Two-gram moles of carbon dioxide are heated from 400°C to 1100°C. Calculate AH by integrating the heat capacity equation for carbon dioxide. Compare your result with the value calculated from the enthalpy tables for the combustion gases.
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
Related questions
Question
![03)
Two-gram moles of carbon dioxide are heated from 400°C to 1100°C. Calculate AH by
integrating the heat capacity equation for carbon dioxide. Compare your result with the
value calculated from the enthalpy tables for the combustion gases.
End of the Questions](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8e5a8627-c5ee-4bea-a85d-cf76e72df1b6%2F49ef36db-115f-44db-9407-73216e990147%2F9mxv50g_processed.jpeg&w=3840&q=75)
Transcribed Image Text:03)
Two-gram moles of carbon dioxide are heated from 400°C to 1100°C. Calculate AH by
integrating the heat capacity equation for carbon dioxide. Compare your result with the
value calculated from the enthalpy tables for the combustion gases.
End of the Questions
![100%
Appendix
Table Ql: Diffusivities and Permeabilities of gases in solid materials
Digusion
Coefficient
[m/s]
Solubility, S
sohte(STP)
solid-atm
Permeability, P
solte(STP
S-atm/m
Solute
Solid (B)
TIK)
H2
Vulcanized
rubber
298 0.85(10-)
0.342(10 1)
0.040
0.21(10-9)
0.15(10-)
0.11(10-9)
290
298
298
298
N2
CO2
Vulcanized
0.070
0.035
0.152(10 1)
0.054(10 10)
1.01(10 1)
0.90
H2
0.103(10-)
0.051
neoprene
300 0.180(10 )
0.053
H2
Polyethylene
O2
N2
Nylon
298
303
6.53(10-12)
4.17(10 12)
1.52(10 2)
0.029(10 12)
0.0152(10 12)
0.15-0.68 x 10-4
303
303
O2
N2
Air
303
English
leather
298
H,O Wax
H,O Cellophane
He
0.16(10 1)
0.91-1.82(10 1)
4.86(10 15)
20.1(10 1)
306
311
Pyrex glass
293
373
2.4-5.5(10 )
2.59(10 )
293
Acti
He
SiO,
293
0.01
o to
293
H,
Al
Fe
Cu
1.3(10 )](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8e5a8627-c5ee-4bea-a85d-cf76e72df1b6%2F49ef36db-115f-44db-9407-73216e990147%2F3lv3luu_processed.jpeg&w=3840&q=75)
Transcribed Image Text:100%
Appendix
Table Ql: Diffusivities and Permeabilities of gases in solid materials
Digusion
Coefficient
[m/s]
Solubility, S
sohte(STP)
solid-atm
Permeability, P
solte(STP
S-atm/m
Solute
Solid (B)
TIK)
H2
Vulcanized
rubber
298 0.85(10-)
0.342(10 1)
0.040
0.21(10-9)
0.15(10-)
0.11(10-9)
290
298
298
298
N2
CO2
Vulcanized
0.070
0.035
0.152(10 1)
0.054(10 10)
1.01(10 1)
0.90
H2
0.103(10-)
0.051
neoprene
300 0.180(10 )
0.053
H2
Polyethylene
O2
N2
Nylon
298
303
6.53(10-12)
4.17(10 12)
1.52(10 2)
0.029(10 12)
0.0152(10 12)
0.15-0.68 x 10-4
303
303
O2
N2
Air
303
English
leather
298
H,O Wax
H,O Cellophane
He
0.16(10 1)
0.91-1.82(10 1)
4.86(10 15)
20.1(10 1)
306
311
Pyrex glass
293
373
2.4-5.5(10 )
2.59(10 )
293
Acti
He
SiO,
293
0.01
o to
293
H,
Al
Fe
Cu
1.3(10 )
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