Modeling and experimental studies of emulsion copolymerization systems. I. Experimental results

Using a model previously published, predictions for evolution of conversion and average particle diameter in batch experiments are compared against experimental data for four emulsion copolymerizations of styrene with the following monomers: (1) methyl methacrylate, (2) butyl acrylate, (3) butadien

## Abstract Using a previously published model and continuing the series of papers started with styrenic copolymers, predictions for evolution of conversion and average particle diameter in batch experiments are compared against experimental data for four emulsion copolymerizations involving at lea

## Abstract Recently, a new type of bioreactor for air pollution control referred to as the foamed emulsion bioreactor (FEBR) has been developed. The process relies on the emulsion of an organic phase with a suspension of an actively growing culture of pollutant‐degrading microorganisms, made into

Ignition delay times of acetonitrile (CH 3 CN) in mixtures containing acetonitrile and oxygen diluted in argon were studied behind reflected shock waves. The temperature range covered was at overall concentrations behind the reflected shock wave ranging 1420-1750 K from 2 to mol/cm 3 . Over this tem

This article describes an experimental and modeling study of the oxidation of isobutene. The low-temperature oxidation was studied in a continuous-flow stirred-tank reactor operated at constant temperature (from 833 to ) and pressure with fuel 913 K (1 atm), equivalence ratios from 3 to 6 and spac