Q2 A cylinder contains a mixture of Ethane ( CH, ) and air and the of air to fuel is (AF= 19.2/1) at 300 ° C. The internal ratio energy of Ethane is equal (AU: = - 47590 kJ/mole) at (25 °C ). when the full combustion is at constant pressure and the temperature of the products is (3250°C). Calculate the heat transferred from the combustion. Take specific heat : Reactants ( C2H6 = 1.7, 02= 22.3, N2= 21.2 KJ / mole.K ) Products (CO2= 46.5, H20(Vap)= 27.3, 02=25.5 KJ / mole.K), R = 8.314 KJ / mole.K.
Q2 A cylinder contains a mixture of Ethane ( CH, ) and air and the of air to fuel is (AF= 19.2/1) at 300 ° C. The internal ratio energy of Ethane is equal (AU: = - 47590 kJ/mole) at (25 °C ). when the full combustion is at constant pressure and the temperature of the products is (3250°C). Calculate the heat transferred from the combustion. Take specific heat : Reactants ( C2H6 = 1.7, 02= 22.3, N2= 21.2 KJ / mole.K ) Products (CO2= 46.5, H20(Vap)= 27.3, 02=25.5 KJ / mole.K), R = 8.314 KJ / mole.K.
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:021 A cylinder contains a mixture of Ethane ( CH, ) and air and the
of air to fuel is (A/F= 19.2/1) at 300 ° C. The internal
ratio
energy of Ethane is equal (AU. = - 47590 kJ/mole) at (25 °C ). when
the full combustion is at constant pressure and the temperature of the
products is (3250°C). Calculate the heat transferred from the
combustion. Take specific heat :
Reactants ( C2H6 = 1.7, 02= 22.3, N2= 21.2 KJ / mole.K )
Products (CO2= 46.5, H20(Vap)= 27.3, 02=25.5 KJ / mole.K),
R = 8.314 KJ / mole.K.
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