20 ft of nitrogen at 300 psig and 100°F and 30 ft' of oxygen at 200 psig and 340°F are injected into a 15 ft' mixture vessel, as illustrated in Figure Quiz1. The mixture vessel is then cooled to 70°F. Find the partial pressure of each component in the mixture vessel. Assume that the ideal gas law applies. N2 20 ft 300 psig, 100°F Mixture Yeşsel 70°F p = ? O2 30 ft3 200 psig, 340°F Figure Quiz1 Given: °R = °F + 460 Gas constant = 10.73 (ft' psi/ (°R lb-mol)
20 ft of nitrogen at 300 psig and 100°F and 30 ft' of oxygen at 200 psig and 340°F are injected into a 15 ft' mixture vessel, as illustrated in Figure Quiz1. The mixture vessel is then cooled to 70°F. Find the partial pressure of each component in the mixture vessel. Assume that the ideal gas law applies. N2 20 ft 300 psig, 100°F Mixture Yeşsel 70°F p = ? O2 30 ft3 200 psig, 340°F Figure Quiz1 Given: °R = °F + 460 Gas constant = 10.73 (ft' psi/ (°R lb-mol)
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:20 ft' of nitrogen at 300 psig and 100°F and 30 ft' of
oxygen at 200 psig and 340°F are
injected into a 15 ft mixture vessel, as illustrated in Figure
Quiz1. The mixture vessel is then cooled to 70°F. Find the
partial pressure of each component in the mixture vessel.
Assume that the ideal gas law applies.
N2
20 ft
300 psig, 100°F
Mixture
Yeşsel
70°F
p= ?
O2
30 ft3
200 psig, 340°F
Figure Quiz1
Given:
°R = °F + 460
Gas constant
10.73 (ft' psi/ (°R lb-mol)
||
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