The following reaction takes place in a reactor: A +B + 2C → 3D + 2E The feed to the reactor is 45.0 mol/h and consists of equimolar amounts of A, B and C. a) Draw a schematic of the process and number the streams. b) Write the expressions for AŃ; as functions of the reaction extent (ɛ). c) What is the limiting reactant? Show your calculations d) If you know that your process has a conversion of 60% of the limiting reactant, what is the reaction extent? e) What is the flow of component D leaving the reactor? f) Two of your colleagues argue about the total molar flow rate leaving the reactor. Colleague 1 says it will be greater than the molar flow fed to the reactor. Colleague 2 says that's impossible since the total moles must be conserved. Who's right and why?

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The following reaction takes place in a reactor: A + B + 2C → 3D + 2E The feed to the reactor is 45.0 mol/h and consists of equimolar amounts of A, B and C. a) Draw a schematic of the process and number the streams. b) Write the expressions for AN¡ as functions of the reaction extent (ɛ). c) What is the limiting reactant? Show your calculations d) If you know that your process has a conversion of 60% of the limiting reactant, what is the reaction extent? e) What is the flow of component D leaving the reactor? f) Two of your colleagues argue about the total molar flow rate leaving the reactor. Colleague 1 says it will be greater than the molar flow fed to the reactor. Colleague 2 says that's impossible since the total moles must be conserved. Who's right and why?