Maurico-Iglesias, Miguel3; Castro, Ignacio Montero3; Mollerup, Ane Loft1; Sin, Gürkan4
1 Department of Chemical and Biochemical Engineering, Technical University of Denmark2 CAPEC-PROCESS, Department of Chemical and Biochemical Engineering, Technical University of Denmark3 Technical University of Denmark4 Centre for oil and gas – DTU, Center, Technical University of Denmark
The design of sewer system control is a complex task given the large size of the sewer networks, the transient dynamics of the water flow and the stochastic nature of rainfall. This contribution presents a generic methodology for the design of a self-optimising controller in sewer systems. Such controller is aimed at keeping the system close to the optimal performance, thanks to an optimal selection of controlled variables. The definition of an optimal performance was carried out by a two-stage optimisation (stochastic and deterministic) to take into account both the overflow during the current rain event as well as the expected overflow given the probability of a future rain event. The methodology is successfully applied to design an optimising control strategy for a subcatchment area in Copenhagen. The results are promising and expected to contribute to the advance of the operation and control problem of sewer systems.
Journal of Environmental Management, 2015, Vol 155, p. 193-203
Sewer systems; Combined sewers overflow; Self-optimising control; Control design; Optimisation