8. 9. butane is consumed, and the product gas contains 9 mol CO2 per mol CO. Calculate the molar flow rate of water in the stack gas. Butane is completely burned in a process fed with 25.0% excess air. Based on 1 mol/h of butane, determine the composition in mole fractions of oxygen in product stream. Methane at a molar flow rate of 55 mol/min is burned with dry air. A partial analysis of the exit gas reveals that the mole fraction of nitrogen is 0.85 on a dry basis, and the molar flow rate of the dry exit gas is 600 mol/min. P
8. 9. butane is consumed, and the product gas contains 9 mol CO2 per mol CO. Calculate the molar flow rate of water in the stack gas. Butane is completely burned in a process fed with 25.0% excess air. Based on 1 mol/h of butane, determine the composition in mole fractions of oxygen in product stream. Methane at a molar flow rate of 55 mol/min is burned with dry air. A partial analysis of the exit gas reveals that the mole fraction of nitrogen is 0.85 on a dry basis, and the molar flow rate of the dry exit gas is 600 mol/min. P
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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Please try to solve by Extent reaction or Molecular balance. My professor wants the answer by those methods not chemistry x y way .
Transcribed Image Text:8.
9.
butane is consumed, and the product gas contains 9 mol CO2 per mol CO. Calculate the molar flow rate of water
in the stack gas.
Butane is completely burned in a process fed with 25.0% excess air. Based on 1 mol/h of butane, determine the
composition in mole fractions of oxygen in product stream.
Methane at a molar flow rate of 55 mol/min is burned with dry air. A partial analysis of the exit gas reveals that
the mole fraction of nitrogen is 0.85 on a dry basis, and the molar flow rate of the dry exit gas is 600 mol/min.
P
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