A multi-unit process first combusts propane and then removes water from the exhaust stream. The process is running at steady state. The company designing the process knows that they want to burn 60% of the propane (yield of CO2 is only 60% of complete combustion of propane). The simple combustion reaction for propane is given below. Use the shortcut method to calculate the Degrees of Freedom around the Combustion Chamber. C3H8 +502 4H2O + 3C02 Stream D Rate: D-?? Composition: D-100% Stream A Rate: A-0.4 mol/hour Composition: Oxygen: Ag-22.8% Nitrogen: A-76.4% Water: A-0.8% Stream B Rate: 8-0.01 mol/hour Composition: Propane: 8,-100% Combustion Chamber Stream C Rate: C- Composition: Oxygen: C₂- Nitrogen:C Water: Condenser Stream E Rate: E-??mol/s Composition: Oxygen: E- Nitrogen: E- Water: 2% Propane: E, Propane:C CO₂:=

Transcribed Image Text:

Question 2 (Type B) (RLO 1.5) A multi-unit process first combusts propane and then removes water from the exhaust stream. The process is running at steady state. The company designing the process knows that they want to burn 60% of the propane (yield of COz is only 60% of complete combustion of propane). The simple combustion reaction for propane is given below. Use the shortcut method to calculate the Degrees of Freedom around the Combustion Chamber. С3Н8 + 502 — 4H20 + 3C02 Stream D Rate: D-?7 Composition: D- 100% Stream A Rate: A-0.4 mol/hour Composition: Onygen: Ap- 22.8% Nitrogen: A, - 76.4% Water:A=0.8% Stream E Rate: E-77mol/s Composition: Oxygen: Eg- Nitrogen: E- Water: E= 2% Propane: E, Combustion Condenser Chamber Stream B Stream C Rane: C- Composidion: Onyger: C- Nitrogen:C water: C Propane:C, Rate: 8-0.01 mol/hour Composition: Propane: 8, - 100% Question 3 (Type B) (RLO 1.6) Calculate the flow rate of Stream D from Question 2. Your complete solution should contain the following: Given, Find, Assumptions, Problem Type/Features, Analysis, and Conclusions. Your solution should clearly show the General Balance Equations used.