Energy integration in batch reactors offers significant savings but at the cost of additional operational constraints. In this paper, optimal operation of a batch reactor-feed effluent heat exchanger system is pursued for a production campaign. The coupling between subsequent batches due to energy integration is exploited to predict and thus plan future batches to achieve desired product purity at the end of the production campaign in the presence of disturbances and time-dependent energy prices. The proposed solution leads to better operation compared to a controller with disturbance rejection.
|Original language||English (US)|
|Number of pages||6|
|State||Published - Jul 1 2015|
|Event||9th IFAC Symposium on Advanced Control of Chemical Processes, ADCHEM 2015 - Whistler, Canada|
Duration: Jun 7 2015 → Jun 10 2015
Bibliographical noteFunding Information:
★★ Partial financial support for this work ffiy the National Science ★ Partial financial support for this work ffiy the National Science FoPunardtaiatilonfi,nagnrcainatl sCuBppEoTr∆t11fo3r31t6h7is awnodrkthffeiy GthoeveNrnamtieonntaloSf cIinendciae Partial financial support for this work ffiy the National Science
Doeupnadrtamtieonnt, ogfraSnctienCcBeEaTnd∆11T3e3c1h6n7oloagnyd(DthSeTG) oINveSrPnmIReEnt&ofSEInRdBia∆ Foundation, grant CBET∆1133167 and the Government of India
SB/S3/CE/090/2013 grant is gratefully acknowledged.
- Batch process modeling and control
- Energy processes and control