The dynamics of a three-catalytic-reactor network, where an exothermic irreversible reaction occurs, is studied. The network is operated by periodically switching feed and discharge positions (with the period being T). We analyzed the effect of two different switch strategies and obsd. different spatio-temporal patterns. Such differences result from the different spatio-temporal symmetry that is induced by the switch strategies. Their effect on the stability is studied by comparing the stability range of T-periodic regimes as the switch time is varied for different values of the feed temp. This anal. is conducted by a numerical continuation technique based on the spatio-temporal symmetry of the forced system. For low (ambient) feed temp., the stability ranges of a diabatic reactor conform to criteria previously proposed for adiabatic reactors [Sheintuch, M; Nekhamkina, O., AIChE J. 2005, 51, 224]. We observe that these criteria cannot be applied at higher feed temps., as a consequence of the external heat losses. One of the examd. switch strategies is used to det. a significant widening of the operability conditions.
Effect of the Switch Strategy on the Stability of Reactor Networks / Mancusi, Erasmo; Russo, Lucia; Altimari, Pietro; Maffettone, PIER LUCA; Crescitelli, Silvestro. - In: INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH. - ISSN 0888-5885. - STAMPA. - 46:(2007), pp. 6510-6521.
Effect of the Switch Strategy on the Stability of Reactor Networks
MANCUSI, ERASMO;RUSSO, LUCIA;ALTIMARI, PIETRO;MAFFETTONE, PIER LUCA;CRESCITELLI, SILVESTRO
2007
Abstract
The dynamics of a three-catalytic-reactor network, where an exothermic irreversible reaction occurs, is studied. The network is operated by periodically switching feed and discharge positions (with the period being T). We analyzed the effect of two different switch strategies and obsd. different spatio-temporal patterns. Such differences result from the different spatio-temporal symmetry that is induced by the switch strategies. Their effect on the stability is studied by comparing the stability range of T-periodic regimes as the switch time is varied for different values of the feed temp. This anal. is conducted by a numerical continuation technique based on the spatio-temporal symmetry of the forced system. For low (ambient) feed temp., the stability ranges of a diabatic reactor conform to criteria previously proposed for adiabatic reactors [Sheintuch, M; Nekhamkina, O., AIChE J. 2005, 51, 224]. We observe that these criteria cannot be applied at higher feed temps., as a consequence of the external heat losses. One of the examd. switch strategies is used to det. a significant widening of the operability conditions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.