If the vapor stream from the chiller exits the process, what is the percent yield of CH₂Cl₂? % Instead of sending the vapor stream out of the process, the vapor stream exiting the chiller enters a split point, with 45.0% of the stream purged from the process and the remainder recycled back to the process and mixed with the fresh feed. Sketch the new flowsheet and calculate the percent yield of CH₂Cl2. You may find it useful to consider a system consisting of the reactor and the chiller without the split point and to use the percent purge constraint. i %

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If the vapor stream from the chiller exits the process, what is the percent yield of CH₂Cl₂? i % Instead of sending the vapor stream out of the process, the vapor stream exiting the chiller enters a split point, with 45.0% of the stream purged from the process and the remainder recycled back to the process and mixed with the fresh feed. Sketch the new flowsheet and calculate the percent yield of CH₂Cl2. You may find it useful to consider a system consisting of the reactor and the chiller without the split point and to use the percent purge constraint. i %

Transcribed Image Text:

Methane (CH4) and chlorine (Cl₂) react to form dichloromethane (CH₂Cl₂) and hydrochloric acid (HCI). A stoichiometric mixture (fresh feed) of methane and chlorine flows at a total molar flow rate of 160.0 mol/minute into a steady state process. The single pass conversion of chlorine in the reactor is equal to 0.305. The exiting stream from the reactor enters a chiller in which all of the CH₂Cl2 and 23.0% of the HCI entering the chiller are condensed into a liquid stream. The other components (and 77.0% of the HCI entering the chiller) exit the chiller in a vapor stream.