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Topic: Help with Reactor Optimisation  (Read 2651 times)

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Offline JArchy123

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Help with Reactor Optimisation
« on: February 07, 2022, 09:31:53 PM »
The following parallel reactions are run in a 10 m3 batch reactor.

          k1
A+B --> C  With CA0=30 mol m-3 and CB0=20 mol m-3
          k2
B+C --> D

Both reactions can be considered elementary.

The down time between batches is 120 min and the maximum temperature is 353 K

The purchase and selling prices of the reactants and product is given table 1.


Table 1


£ per mol   Sell   Buy
     A            20    25
     B            3    4
     C           60   100
     D           30   35

We know that:

k1=0.01×e-30008.314×T m3 mol-1 min-1

k2=0.5×e-250008.314×T m3 mol-1 min-1

Using any method of your choice, find the reactor conditions and process operations that will maximize the daily profit.

Offline Borek

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Re: Help with Reactor Optimisation
« Reply #1 on: February 08, 2022, 02:54:41 AM »
Please read the forum rules. You have to show your attempts at answering the question/solving the problem to receive help, it is a forum policy.
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Offline JArchy123

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Re: Help with Reactor Optimisation
« Reply #2 on: February 08, 2022, 03:11:06 PM »
I can't attach the excel spreadsheet. I didn't want an answer just with help starting the problem as it is clear that my method was wrong.

Offline Orcio_87

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Re: Help with Reactor Optimisation
« Reply #3 on: February 15, 2022, 03:10:20 AM »
1. Volume of the reactor is 10 m3 (A + B = 10 m3).
2. Net gain = buy price A + B - sell price A, B, C, D
3. C is expensive to buy, but D is cheap to sell - I recommend not to buy it.
4. With A and B as variatives it is function of net gain vs. initial concentration of A and B.

Offline Orcio_87

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Re: Help with Reactor Optimisation
« Reply #4 on: February 15, 2022, 03:55:27 AM »
5. Temperature of reactor is also variable, so I recommend to draw few functions at given temperature (like 0, 10, 20... 80 C) to find optimal temperature.

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