Title | Towards the synthesis of modular process intensification systems with safety and operability considerations - application to heat exchanger network |
Publication Type | Journal Article |
Year of Publication | 2018 |
Authors | Tian, Y, M. Mannan, S, Kravanja, Z, Pistikopoulos, EN |
Journal | Computer Aided Chemical Engineering |
Volume | 43 |
Pagination | 705-710 |
Date Published | 07/2018 |
ISBN Number | 9780444642356 |
Keywords | flexibility analysis, heat exchanger network, Modeling and Simulation, multi-parametric Model Predictive Control, Process intensification, Project 9.3, quantitative risk assessment |
Abstract | In this work, we present a systematic framework for the synthesis of safely operable process intensification systems. Herein, intensified designs are automatically generated by using phenomena-based Generalized Modular Representation Framework, while their safety and operability performances are guaranteed by incorporating: (i) flexibility analysis and multiperiod design, (ii) inherent safety analysis utilizing quantitative risk assessment, and (iii) multi-parametric model predictive control strategies developed via the PAROC framework. As an example from a broader set of intensified systems, the proposed framework is applied to heat exchanger network synthesis for thermal intensification, demonstrating its capability on enhancing safety and operability at early design stage. |
URL | https://www.osti.gov/biblio/1646333-towards-synthesis-modular-process-intensification-systems-safety-operability-considerations-application-heat-exchanger-network |
DOI | 10.1016/B978-0-444-64235-6.50125-X |
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