11 research outputs found
A generalised Dynamic Overflow Risk Assessment (DORA) for Real Time Control of urban drainage systems
Kanalnetz- und Kläranlagenzuflusssteuerung am Beispiel des Einzugsgebiets Wilhelmshaven
Implementation of an integrated real-time control system of sewer system and waste water treatment plant in the city of Wilhelmshaven
Real-Time Control-Oriented Quality Modelling in Combined Urban Drainage Networks * *This research is funded by EU funding for the project LIFE EFFIDRAIN LIFE14 ENV/ES/00080
Real time control (RTC) of urban drainage systems – A discussion of the additional efforts compared to conventionally operated systems
An automated toolchain for the data-driven and dynamical modeling of combined sewer systems
Estimation and optimization operation in dealing with inflow and infiltration of a hybrid sewerage system in limited infrastructure facility data
Controlling Urban Drainage Systems
The key issue in urban drainage (UD) systems, looking from a control engineering perspective, is operation. Measurements, feedback, control and automation are tools to address the challenges. Measurement technology combined with analysis and parameter estimation are used to obtain relevant information for decision and control. The UD control problem is truly multivariable with many sensors and actuators. A major concern is how to define performance indices that reflect requirements from the natural and urban environment and how to translate this into operational variables. This makes the UD system operation a multi-objective control problem