This works addresses the processing of thermo-hydraulic data collected by suitable instruments at a Plant made of seepage wells and located in a residential area in Lombardy, a Region of Italy. Water from meteorological events ('rain water') which falls on a building and on the surrounding impervious areas has to be disposed of separately from wastewater e.g., by seepage well plants. The latter need proper management and maintenance plans. Herewith, a research and development Project is outlined, which was started in 2017 with the aim of monitoring and characterising the Plant. The sequence of sub-Projects has included the collection of thermo-hydraulic data. Methods from the qualitative theory of dynamical, non-autonomous systems have made the processing of such data possible and triggered Plant characterisation. A product from the latter activity consists of a mathematical model of thermo-hydraulic processes in the Plant and of a method to estimate the parameters of such model, presented herewith for the first time.
Crosta, G. (2023). Putting Hydrogeological Data “into Orbit”: the Geometry of Thermo-hydraulic Transients. In EUROCON 2023 - 20th International Conference on Smart Technologies, Proceedings (pp.72-77). IEEE [10.1109/EUROCON56442.2023.10199062].
Putting Hydrogeological Data “into Orbit”: the Geometry of Thermo-hydraulic Transients
Crosta, Giovanni Franco
Primo
2023
Abstract
This works addresses the processing of thermo-hydraulic data collected by suitable instruments at a Plant made of seepage wells and located in a residential area in Lombardy, a Region of Italy. Water from meteorological events ('rain water') which falls on a building and on the surrounding impervious areas has to be disposed of separately from wastewater e.g., by seepage well plants. The latter need proper management and maintenance plans. Herewith, a research and development Project is outlined, which was started in 2017 with the aim of monitoring and characterising the Plant. The sequence of sub-Projects has included the collection of thermo-hydraulic data. Methods from the qualitative theory of dynamical, non-autonomous systems have made the processing of such data possible and triggered Plant characterisation. A product from the latter activity consists of a mathematical model of thermo-hydraulic processes in the Plant and of a method to estimate the parameters of such model, presented herewith for the first time.
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