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Methane enters an old furnace at a rate of 200.0kg/h. It is accompanied by 31.0% excess air containing 0.959mol% water and the remainder a 3.76:1
Methane enters an old furnace at a rate of 200.0kg/h. It is accompanied by 31.0% excess air containing 0.959mol% water and the remainder a 3.76:1 molar ratio of N2 to O2. Mixing of the combustion gases is very poor so that incomplete combustion is significant. The combustion reactions proceed according to CH4+2O2CO2+2H2OCH4+3/2O2CO+2H2O Take the stoichiometric coefficients to have units of kmoles. A significant amount of uncombusted methane leaves the furnace. The exhaust gas contains 1.95 wt\% CO and 0.90 wt\% CH4, on a dry basis. Calculate the molar flow rate of each species in the feed. CH4:N2:kmol/hkmol/hH2O:O2:kmol/hkmol/h Calculate the total mass flow rate into the furnace: kg/h Draw and label a flow diagram and use appropriate balances to calculate the rate of change of the extents of reactions (1) and (2) above. Take the stoichiometric coefficients in each reaction to have units of kmoles. Exhaust Composition Determine the mass flow rate of water in the exhaust gas and the composition of the remainder in wt\% on a dry basis. Mass flow rate of water: kg/h Weight Percent on a Dry Basis
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