Strongly exothermic solution homopolymerizations are a class of chain reactions particularly difficult to be optimized from both a safety and a productivity viewpoint. Particularly, lots of side undesired reactions (e.g., backbiting, propagation of tertiary radicals, chain transfer to monomer or solvent, etc.), which affect the selectivity with respect to the desired product, and relevant mass and heat transfer problems, due to the increasing system viscosity, take place during such syntheses. Under these unavoidable operating conditions, it is difficult to employ theoretical procedures that are able to safely optimize the analyzed process, because the development of a reliable mathematical model is often not affordable or too time-consuming. In this work, it is shown that the topological criterion theory and its related optimization procedure can be used to optimize experimentally (through a dedicated set of isoperibolic reaction calorimetry tests) a complex reacting system even if its reaction scheme and all information about the kinetics are not available.

Experimental design of topological curves to safely optimize highly exothermic complex reacting systems

COPELLI, SABRINA;
2011-01-01

Abstract

Strongly exothermic solution homopolymerizations are a class of chain reactions particularly difficult to be optimized from both a safety and a productivity viewpoint. Particularly, lots of side undesired reactions (e.g., backbiting, propagation of tertiary radicals, chain transfer to monomer or solvent, etc.), which affect the selectivity with respect to the desired product, and relevant mass and heat transfer problems, due to the increasing system viscosity, take place during such syntheses. Under these unavoidable operating conditions, it is difficult to employ theoretical procedures that are able to safely optimize the analyzed process, because the development of a reliable mathematical model is often not affordable or too time-consuming. In this work, it is shown that the topological criterion theory and its related optimization procedure can be used to optimize experimentally (through a dedicated set of isoperibolic reaction calorimetry tests) a complex reacting system even if its reaction scheme and all information about the kinetics are not available.
2011
http://www.scopus.com/record/display.url?eid=2-s2.0-80052378484&origin=resultslist&sort=plf-f&src=s&sid=57037EEB84FBE2C3CC3AF798988493ED.53bsOu7mi7A1NSY7fPJf1g%3a100&sot=aut&sdt=a&sl=37&s=AU-ID%28%22Copelli%2c+Sabrina%22+26221013100%29&relpos=14&relpos=14&citeCnt=5&searchTerm=AU-ID%28%5C%26quot%3BCopelli%2C+Sabrina%5C%26quot%3B+26221013100%29
Free radical polymerization; Mathematical models; Optimization; Topology
Copelli, Sabrina; Derudi, M.; Rota, R.; Lunghi, A.; Pasturenzi, C.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/1759586
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