Single pass and overall conversion: The figure below depicts the reaction of ethylbenzene with ethylene to form diethylbenzene, and includes a recycle loop. The ethylene is the limiting reactant in this particular case. Based on the flows given in the diagram below, and the information immediately below for stream 2, calculate the mole flow rates of all components in stream 1, as well as the single-pass conversion and the overall conversion. Stream 2 contains the following: Ethylbenzene Ethylene Diethylbenzene Inert = 20 mol/hr = 10 mol/hr = 0 mol/hr dig = 75 mol/hr $₂0 CD Ethylbenzene (EB) + Ethylene (ET) Diethylbenzene (DEB) (couran wen

can you please help with anything? 

1) Calculate the mole flow rates of all components in stream.

2) Calculate the single pass conversion

3) overall conversion

Transcribed Image Text:

Single pass and overall conversion: The figure below depicts the reaction of ethylbenzene with ethylene to form diethylbenzene, and includes a recycle loop. The ethylene is the limiting reactant in this particular case. Based on the flows given in the diagram below, and the information immediately below for stream 2, calculate the mole flow rates of all components in stream 1, as well as the single-pass conversion and the overall conversion. Stream 2 contains the following: Ethylbenzene Ethylene Diethylbenzene Inert 20 mol/hr = 10 mol/hr = 0 mol/hr dig (couran = 75 mol/hr 69 Ethylbenzene (EB) + Ethylene (ET) → Diethylbenzene (DEB) CH10 + C₂H4 C10H14 FEED nEB.O = 10 mol/hr EB NET,O = 8 mol/hr ET no = 15 mol/hr Inert STREAM RECYCLE STREAM 1 STREAM 2 Combined Reaction & Separation Process 20 10 15 PURGE NEB = 4 mol/hr EB NET = 2 mol/hr ET n₁ = 15 mol/hr Inert PRODUCT ПDEB= 6 mol/hr DEB Zero all other components