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Methane is completely burned with 10% excess air. Methane and air enter the furnace at 25C and 100C, respectively. The combustion products leave the furnace
Methane is completely burned with 10% excess air. Methane and air enter the furnace at 25C and 100C, respectively. The combustion products leave the furnace at 400C. The flowrate of methane to the furnace is 100 mol/s. a) Perform a degree of freedom analysis of the process. b) Construct a complete inlet-outlet enthalpy table. c) Calculate the heat transferred (kW) from the furnace.
Methane is completely burned with 10% excess air. Methane and air enter the furnace at 25C and 100C, respectively. The combustion products leave the furnace at 400C. The flowrate of methane to the furnace is 100mol/s. a) Perform a degree of freedom analysis of the process. b) Construct a complete inlet-outlet enthalpy table. c) Calculate the heat transferred (kW) from the furnace. You can choose to solve this problem using the heat of formation or the heat of reaction method
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