Schork, F. Joseph published the artcileMonomer transport in emulsion polymerization III terpolymerization and starved-feed polymerization, Product Details of C16H30O2, the main research area is emulsion polymerization monomer transport Damkohler number.
A simple math. model of the transport of monomer from the monomer droplets to the polymerizing polymer particles during batch emulsion homopolymerization has been developed and published previously. A Damkohler number for monomer transport in emulsion polymerization is proposed as the ratio of the maximum rate of polymerization divided by the maximum rate of monomer transport out of the monomer droplets. This Damkohler number is calculated from literature values for a number of common monomers. Following standard practice for the use of such a Damkohler number in other reaction-with-transport systems, monomers with a Damkohler number above 0.1 are considered to be transport limited. In a third paper the anal. is extended to batch binary copolymerization Here the anal. is extended to the more industrially relevant cases of batch terpolymn., starved-feed copolymerization, and the combination of the two (starved-feed terpolymn.).
Macromolecular Reaction Engineering published new progress about Damkohler number. 142-90-5 belongs to class esters-buliding-blocks, name is Dodecyl 2-methylacrylate, and the molecular formula is C16H30O2, Product Details of C16H30O2.
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