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PRODID:-//DTU.dk//NONSGML DTU.dk//EN
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BEGIN:VEVENT
DTSTART:20210415T070000Z
DTEND:20210415T080000Z
SUMMARY:CERE Seminar by John Bagterp Jørgensen
DESCRIPTION:<h2>Modeling, simulation, control and optimization for reactive systems</h2>\n<p>&nbsp;</p>\n<p style="margin-top: 5px; text-align: center;">Due to the Corona situation the seminar will be held virtually.<br />\nIf you wish to follow the seminar you will have to sign up by sending an e-mail to Christian Ove Carlsson cc@kt.dtu.dk<br />\nhereafter you will receive an invitation to join the virtual seminar.</p>\n<p style="margin-bottom: 20px;">&nbsp;</p>\n<p><strong>Abstract:<br />\n</strong>In this presentation we provide a systematic approach to modeling of reactive systems that are operated in stationary as well non-stationary modes. </p>\n<p>These models are used for simulation, filtering and prediction, control, and optimization. We garnish the presentation with a number of novel and partly surpising results. </p>\n<p>The approach is illustrated through a number case studies includling an exothermic reaction in an adiabatic laboratory reactor, fermentations operated in fedbatch and continuous mode, drug deliver devices such as the artificial pancreas, cement manufacturing, integrated power and power-2-X systems, and mitigation of the COVID-19 pandemic. </p>\n<p>The range and broadness of these systems demonstrates the power of a uniform system approach based on merging high-performance scientific computing, systems and control, and chemical engineering science.</p>
X-ALT-DESC;FMTTYPE=text/html:<h2>Modeling, simulation, control and optimization for reactive systems</h2>\n<p>&nbsp;</p>\n<p style="margin-top: 5px; text-align: center;">Due to the Corona situation the seminar will be held virtually.<br />\nIf you wish to follow the seminar you will have to sign up by sending an e-mail to Christian Ove Carlsson cc@kt.dtu.dk<br />\nhereafter you will receive an invitation to join the virtual seminar.</p>\n<p style="margin-bottom: 20px;">&nbsp;</p>\n<p><strong>Abstract:<br />\n</strong>In this presentation we provide a systematic approach to modeling of reactive systems that are operated in stationary as well non-stationary modes. </p>\n<p>These models are used for simulation, filtering and prediction, control, and optimization. We garnish the presentation with a number of novel and partly surpising results. </p>\n<p>The approach is illustrated through a number case studies includling an exothermic reaction in an adiabatic laboratory reactor, fermentations operated in fedbatch and continuous mode, drug deliver devices such as the artificial pancreas, cement manufacturing, integrated power and power-2-X systems, and mitigation of the COVID-19 pandemic. </p>\n<p>The range and broadness of these systems demonstrates the power of a uniform system approach based on merging high-performance scientific computing, systems and control, and chemical engineering science.</p>

URL:https://www.cere.dtu.dk/da/Calendar/2021/04/CERE-Seminar-by-John-Bagterp-Joergensen
DTSTAMP:20260612T020600Z
UID:{66D4BE8D-614E-4D75-805A-33795B6E91BA}-20210415T070000Z-20210415T070000Z
LOCATION: Online
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