Development of a digital twin for a flexible air separation unit using a pressure-driven simulation approach
| Autor: | Bernd Wunderlich, Harald Klein, Dimitri Golubev, Sebastian Rehfeldt, A. Ecker, Felix Rößler, Ingo Thomas, R. Kender, Florian Kaufmann |
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| Přispěvatelé: | Lehrstuhl für Energiesysteme |
| Jazyk: | angličtina |
| Rok vydání: | 2020 |
| Předmět: |
Pressure drop
Work (thermodynamics) Air separation Computer science 020209 energy General Chemical Engineering air separation unit dynamic simulation pressure-driven simulation digital twin flexible operation renewable energies Mechanical engineering Context (language use) 02 engineering and technology Computer Science Applications law.invention ddc Sieve Tray 020401 chemical engineering law 0202 electrical engineering electronic engineering information engineering State (computer science) 0204 chemical engineering Distillation |
| Popis: | Currently, digitalization provides new challenges and opportunities for theprocess industry. A frequently used keyword in this context is digital twin. In this work, the term digital twin is defined with regard to a flexible air separation unit. Furthermore, the digital twin’s core component, a highly detailed dynamicplant model, is presented. A pressure-driven approach is used as a basis for themodeling. The focus of this work is on the distillation columns. Therefore, apressure-driven sieve tray column model is presented using design correlations for the calculation of pressure drop and both the liquid and vapor holdup.Furthermore, two industrially relevant load change scenarios are presented and discussed. A plant shutdown is simulated until a state of cold standby is reached. Then, starting from this state a cold restart is simulated. Cold standby means that the plant remains at cryogenic temperatures. Lastly, a hazard analysis is conducted. |
| Databáze: | OpenAIRE |
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