A new catalyst has been developed to effectively convert isopropanol into acetone through the following gas-phase reaction: Он + .CH H-H H3C *CH3 H3C CH3 propan-2-ol Acetone Hydrogen The reaction will take place at 450 K and 2.0 bar. The feed to the reactor will consist of isopropanol and N2 (an inert) at a 1:3 mole ratio. Determine the mole fractions of all chemical species at thermodynamic equilibrium and the % conversion of acetone. Assuming the reaction proceeds to equilibrium, how many kg of isopropanol would be needed to produce 10.0 kg of acetone? Also, calculate the heat of reaction in kJ that would occur when producing 10.0 kg of acetone, and indicate if the energy will be released to the environment or must be added to the reactor.

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Chemistry A new catalyst has been developed to effectively convert isopropanol into acetone through the following gas-phase reaction: OH .CH H-H H3C CH3 H3C CH3 propan-2-ol Acetone Hydrogen The reaction will take place at 450 K and 2.0 bar. The feed to the reactor will consist of isopropanol and N2 (an inert) at a 1:3 mole ratio. Determine the mole fractions of all chemical species at thermodynamic equilibrium and the % conversion of acetone. Assuming the reaction proceeds to equilibrium, how many kg of isopropanol would be needed to produce 10.0 kg of acetone? Also, calculate the heat of reaction in kJ that would occur when producing 10.0 kg of acetone, and indicate if the energy will be released to the environment or must be added to the reactor. Ideal gas behavior can be assumed, meaning that all activity coefficients z1.0