Peat gas analyses 22% methane, 12% ethane, 15.8% carbon monoxide, 7% nitrogen and 43.2% oxygen. 100 mol per hour of peat gas at 25C and 716mmHg is burned with excess air at 27C and 760mmHg to produce a stack gas at 312C and 765mmHg. 87% of the total carbon exits the burner as CO2. If the air is supplied twice the amount of the stoichiometric air and the stack gas contains no hydrogen, compute a. Orsat Analysis of the stack gas b. Mass flowrate (kg/hr) of the stack gas leaving c. GCV of peat gas in MJ/kmol d. Thermal Efficiency of combustion e. Dew point of the stack gas
Peat gas analyses 22% methane, 12% ethane, 15.8% carbon monoxide, 7% nitrogen and 43.2% oxygen. 100 mol per hour of peat gas at 25C and 716mmHg is burned with excess air at 27C and 760mmHg to produce a stack gas at 312C and 765mmHg. 87% of the total carbon exits the burner as CO2. If the air is supplied twice the amount of the stoichiometric air and the stack gas contains no hydrogen, compute a. Orsat Analysis of the stack gas b. Mass flowrate (kg/hr) of the stack gas leaving c. GCV of peat gas in MJ/kmol d. Thermal Efficiency of combustion e. Dew point of the stack gas
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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Peat gas analyses 22% methane, 12% ethane, 15.8% carbon monoxide, 7% nitrogen and 43.2% oxygen. 100 mol per hour of peat gas at 25C and 716mmHg is burned with excess air at 27C and 760mmHg to produce a stack gas at 312C and 765mmHg. 87% of the total carbon exits the burner as CO2. If the air is supplied twice the amount of the stoichiometric air and the stack gas contains no hydrogen, compute
a. Orsat Analysis of the stack gas
b. Mass flowrate (kg/hr) of the stack gas leaving
c. GCV of peat gas in MJ/kmol
d. Thermal Efficiency of combustion
e. Dew point of the stack gas
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