Commercial emulsion polymerizations are typically run as semi-batch processes, where the monomers and possibly other formulation components (initiator, surfactant, chain transfer agent) are slowly added to the reactor over the course of the polymerization. In contrast, in a batch process all of the monomers and other formulation components are added at the beginning of the process. The primary reason for operating in semi-batch mode is safety; the total monomer holdup at any time is low, so in the event of an accident (e.g. loss of cooling), there is no serious safety risk from a runaway reaction. However there are other important advantages related to the latex properties that can be achieved with a semi-batch process, and more specifically a starve-fed process, which is simply a semi-batch process where the monomer concentration inside the polymer particles is kept very low by keeping the monomer feed rate to the reactor low. The figure below illustrates the different profiles of the monomer concentration inside the polymer particles for batch reactions, semi-batch reactions and starve-fed conditions.
Maintaining low monomer concentration inside the polymer particles also decreases the likelihood of secondary nucleation, as there is also less monomer in the aqueous phase. Secondary nucleation alters the desired particle size distribution and can cause stability problems. With less monomer in the aqueous phase, there is also less tendency to make water-soluble polymer or oligomers, which can also cause stability problems as well as change the rheological behavior of the latex.