Carburetted water gas is produced in the same way as blue water gas except that it is done in the presence of cracked oil vapors in a carburettor. A typical gas analysis shows 4.7% CO2, 7.8% C2H4, 0.3% O2, 36.5% H2, 35.5% CO, 8.6% CH4, 6.6% N2. If this gas is saturated with water at 20C and 742 torrs and burned in 10.434 m3 air at 30C, 101 kPa and 60% RH per m3 fuel, calculate: (a) % excess O2, (b) orsat analysis of stack gas if 85% od C burns to CO2; all H2 burns to H2O, (c) m3 stack gas (T=400 0C, P = 1 atm)/m3 fuel gas,
Carburetted water gas is produced in the same way as blue water gas except that it is done in the presence of cracked oil vapors in a carburettor. A typical gas analysis shows 4.7% CO2, 7.8% C2H4, 0.3% O2, 36.5% H2, 35.5% CO, 8.6% CH4, 6.6% N2. If this gas is saturated with water at 20C and 742 torrs and burned in 10.434 m3 air at 30C, 101 kPa and 60% RH per m3 fuel, calculate: (a) % excess O2, (b) orsat analysis of stack gas if 85% od C burns to CO2; all H2 burns to H2O, (c) m3 stack gas (T=400 0C, P = 1 atm)/m3 fuel 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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Carburetted water gas is produced in the same way as blue water gas except that it is done in the presence of cracked oil vapors in a carburettor. A typical gas analysis shows 4.7% CO2, 7.8% C2H4, 0.3% O2, 36.5% H2, 35.5% CO, 8.6% CH4, 6.6% N2. If this gas is saturated with water at 20C and 742 torrs and burned in 10.434 m3 air at 30C, 101 kPa and 60% RH per m3 fuel, calculate: (a) % excess O2, (b) orsat analysis of stack gas if 85% od C burns to CO2; all H2 burns to H2O, (c) m3 stack gas (T=400 0C, P = 1 atm)/m3 fuel gas, (d) Pwater in stack gas
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