Semibatch reactor
For both chemical and biological engineering, Semibatch 'reactors' operate much like batch reactors in that they take place in a single stirred tank with similar equipment. However, they are modified to allow reactant addition and/or product removal in time.
A normal batch reactor is filled with reactants in a single stirred tank at time and the reaction proceeds. A semi batch reactor, however, allows partial filling of reactants with the flexibility of adding more as time progresses. Stirring in both types is very efficient, which allows batch and semi batch reactors to assume a uniform composition and temperature throughout.
Advantages
The flexibility of adding more reactants over time through semi batch operation has several advantages over a batch reactor. These include:Improved selectivity of a reaction
Sometimes a particular reactant can go through parallel paths that yield two different products, only one of which is desired. Consider the simple example below:A→U
A→W
The rate expressions, considering the variability of the volume of reaction, are:
= -
= -
= -
Where is the molar rate of addition of the reactant A. Note that the presence of these addition terms, which could be negative in case of products removal are the ones marking the difference of the semi batch reactor cases from the simpler batch cases.
For standard batch reactors the selectivity of the desired product is defined as:
S = =
S = = for constant volume reactions.
If, the concentration of the reactant should be kept at a low level in order to maximize selectivity. This can be accomplished using a semibatch reactor.