determine the product temperature of the chemical reacting system (the next pic), using the following scenarios

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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determine the product temperature of the chemical reacting system (the next pic), using the following scenarios 

CO2(g) + 3H,(g) → CH;0H(g) + H,0(g)
Transcribed Image Text:CO2(g) + 3H,(g) → CH;0H(g) + H,0(g)
Scenario 1: Pressure = 1 bar; adiabatic; complete reaction
1. Reactants are in stoichiometric quantities; both at TR = 25°C
2. Reactants are in stoichiometric quantities; both at temperature TR > 25°C
3. What is the effect of reactant temperature on the product temperature?
Scenario 2: Pressure = 1 bar; adiabatic; complete reaction
4. One of the reactants is in excess; both at 25°C.
You have to make two calculations, trying each reactant to be the reactant in excess.
5. Based on your calculations in 4, can you suggest which, between the two reactants,
should be fed in excess?
Scenario 3: Pressure = 1 bar; adiabatic; incomplete reaction (i.e., conversion < 100%, based on
limiting reactant)
6. Repeat Scenario 1 (1) and Scenario 2 (4)
7. Make conclusions.
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Transcribed Image Text:Scenario 1: Pressure = 1 bar; adiabatic; complete reaction 1. Reactants are in stoichiometric quantities; both at TR = 25°C 2. Reactants are in stoichiometric quantities; both at temperature TR > 25°C 3. What is the effect of reactant temperature on the product temperature? Scenario 2: Pressure = 1 bar; adiabatic; complete reaction 4. One of the reactants is in excess; both at 25°C. You have to make two calculations, trying each reactant to be the reactant in excess. 5. Based on your calculations in 4, can you suggest which, between the two reactants, should be fed in excess? Scenario 3: Pressure = 1 bar; adiabatic; incomplete reaction (i.e., conversion < 100%, based on limiting reactant) 6. Repeat Scenario 1 (1) and Scenario 2 (4) 7. Make conclusions. Activate Windows Go to Settings to activate Windo
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