Determine the heat transfer between the reactor and its

1. Methane gas at 25°C, 1 atm enters a reactor operating at steady state and burns with 80% of theoretical air entering at 227°C, 1 atm. An equilibrium mixture of CO2, CO, H2O(g), H2, and N2 exits at 1427°C, 1 atm. Determine, per kmol of methane entering,

(a) the composition of the exiting mixture.

(b) the heat transfer between the reactor and its surroundings, in kJ.

Neglect kinetic and potential energy effects.

2. Gaseous propane (C3H8) at 25°C, 1 atm enters a reactor operating at steady state and burns with 80% of theoretical air entering separately at 25°C, 1 atm. An equilibrium mixture of CO2, CO, H2O(g), H2, and N2 exits at 1227°C, 1 atm. Determine the heat transfer between the reactor and its surroundings, in kJ per kmol of propane entering. Neglect kinetic and potential energy effects.

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Mechanical Engineering: Determine the heat transfer between the reactor and its
Reference No:- TGS01259682
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