Economic Oriented Dynamic Matrix Control of Wastewater Treatment Plants

Wastewater Treatment Plants (WWTPs) are industrial facilities, which are important for the protection of the environment, because they remove pollutants from wastewater, before it reaches natural bodies of water. WWTPs consist of complex physical, chemical, and biological energy-intensive processes,...

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Bibliographic Details
Published in:Journal of process control 2022-10, Vol.118, p.202-217
Main Authors: Kalogeropoulos, Ioannis, Alexandridis, Alex, Sarimveis, Haralambos
Format: Article
Language:English
Subjects:
Dynamic Matrix Control
Economic model predictive control
Feedforward compensation
Wastewater Treatment Plant
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Summary:Wastewater Treatment Plants (WWTPs) are industrial facilities, which are important for the protection of the environment, because they remove pollutants from wastewater, before it reaches natural bodies of water. WWTPs consist of complex physical, chemical, and biological energy-intensive processes, which are subject to significant disturbances and uncertainties, due to large variations in the load and quality of the influent. Rising energy prices and increasingly stringent effluent requirements have amplified the need of developing more efficient control schemes for WWTPs. In this paper a novel Economic Dynamic Matrix Control (EDMC) configuration is proposed for WWTPs, where the objective is to minimize the plant’s operating costs in terms of energy savings, while maintaining the effluent quality within acceptable regulatory limits. The novelty of the proposed scheme lies in the combination of the standard Dynamic Matrix Control (DMC) methodology, with economic oriented control strategies. The EDMC predictive models are derived from the application of step tests on the COST/IWA Benchmark Simulation Model No. 1 (BSM1). Based on the BSM1 model, the proposed method is compared to standard Multiple Input–Multiple Output (MIMO) DMC controllers, to the default BSM1 control strategy and to other economic control methods, which have been proposed in the literature. The results illustrate that the proposed EDMC scheme is superior to alternative control strategies in terms of minimizing the energy consumption while, the effluent quality of the plant is maintained at acceptable levels. •We propose a novel control method combining conventional DMC with concepts from Economic MPC.•The method is particularly tailored to the control of Waste Water Treatment Plants.•The method is based on data-driven models derived from step tests, so it can be applied easily in real-life scenarios.•Feasibility is tested on a benchmark model and compared to several other control methods proposed in the literature.
ISSN:0959-1524
1873-2771
DOI:10.1016/j.jprocont.2022.08.006