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- Title
A weighted local steady‐state determination approach based on the globally optimal economic steady‐states.
- Authors
Liu, Jianbang; Sun, Haojie; Lu, Yunsong; Hu, Jingtao; Zou, Tao
- Abstract
Steady‐state incremental constraints of manipulated variables play a vital role in making given steady‐states satisfy physical limitations and avoiding drastic set‐point changes. Nevertheless, some research reveals that the steady‐state incremental constraints will make the given locally optimal economic steady‐states diverge from the globally optimal economic steady‐states. Therefore, a novel weighted local steady‐state determination approach based on the globally optimal economic steady‐states is presented in this paper. Firstly, the globally and locally optimal economic steady‐states are both evaluated through considering and not considering steady‐state incremental constraints. Then, the angle between them is evaluated and the closest local steady‐state from the globally optimal economic steady‐state is calculated. Subsequently, a new weighted local steady‐state is evaluated by combining the locally optimal economic steady‐state and the closest local steady‐state, in which the weighting coefficient is carefully tuned based on the above‐calculated angle. Finally, several simulations verify that the proposed method could effectively shorten the settling time of controlled systems and improve their economic performance.
- Subjects
ECONOMIC indicators; ECONOMIC systems
- Publication
Canadian Journal of Chemical Engineering, 2021, Vol 99, Issue 10, p2229
- ISSN
0008-4034
- Publication type
Article
- DOI
10.1002/cjce.23946