Professor Modyn's steady state flow reactor is now fed acetylene (C, H,) at 2.000 mol/s. The acetylene is combusted with 44.00% excess dry air to form CO, and H,O. Limitations within the reactor only allow 84.00% of the acetylene to react. Both the acetylene and air enter the reactor at 25 °C, and the products leave the reactor at 1027.00 °C. Potentially useful properties are listed in the following table. Species Ah:(298 K), kJ/mol C,kJ/kmol-K 02 3.5R N2 3.5R C,H, -226.73 4R CO, H,O(g) -393.5 4R -241.82 5R Determine the exiting flow rate of O,. Determine the heat interaction term. exiting flow rate: mol/s heat interaction term: kW
Professor Modyn's steady state flow reactor is now fed acetylene (C, H,) at 2.000 mol/s. The acetylene is combusted with 44.00% excess dry air to form CO, and H,O. Limitations within the reactor only allow 84.00% of the acetylene to react. Both the acetylene and air enter the reactor at 25 °C, and the products leave the reactor at 1027.00 °C. Potentially useful properties are listed in the following table. Species Ah:(298 K), kJ/mol C,kJ/kmol-K 02 3.5R N2 3.5R C,H, -226.73 4R CO, H,O(g) -393.5 4R -241.82 5R Determine the exiting flow rate of O,. Determine the heat interaction term. exiting flow rate: mol/s heat interaction term: kW
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:Professor Modyn's steady state flow reactor is now fed acetylene (C, H,) at 2.000 mol/s. The acetylene is combusted with 44.00%
excess dry air to form CO, and H,O. Limitations within the reactor only allow 84.00% of the acetylene to react. Both the
acetylene and air enter the reactor at 25 °C, and the products leave the reactor at 1027.00 °C.
Potentially useful properties are listed in the following table.
Species
Ahç(298 K), kJ/mol
C„, kJ/kmol-K
0,
3.5R
N,
3.5R
C,H,
-226.73
4R
CO,
H,O(g)
-393.5
4R
-241.82
5R
Determine the exiting flow rate of O,
Determine the heat interaction term.
2.
exiting flow rate:
mol/s
heat interaction term:
kW
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