Design methodology to determine the water quality monitoring strategy of a surface water treatment plant in the Netherlands
The primary goal of a drinking water company is to produce safe drinking water fulfilling the quality standards defined by national and international guidelines. To ensure the produced drinking water meets the quality standards, the sampling of the drinking water is carried out on a regular (almost daily) basis. It is a dilemma that the operator wishes to have a high probability of detecting a bias while minimizing their measuring effort. In this paper a seven-step design methodology is described which helps to determine a water quality (WQ) monitoring scheme. Besides using soft sensors as sur... Mehr ...
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| Dokumenttyp: | Artikel |
| Erscheinungsdatum: | 2020 |
| Reihe/Periodikum: | Drinking Water Engineering and Science, Vol 13, Pp 1-13 (2020) |
| Verlag/Hrsg.: |
Copernicus Publications
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| Schlagwörter: | Technology / T / Environmental technology. Sanitary engineering / TD1-1066 |
| Sprache: | Englisch |
| Permalink: | https://search.fid-benelux.de/Record/base-28756543 |
| Datenquelle: | BASE; Originalkatalog |
| Powered By: | BASE |
| Link(s) : | https://doi.org/10.5194/dwes-13-1-2020 |
The primary goal of a drinking water company is to produce safe drinking water fulfilling the quality standards defined by national and international guidelines. To ensure the produced drinking water meets the quality standards, the sampling of the drinking water is carried out on a regular (almost daily) basis. It is a dilemma that the operator wishes to have a high probability of detecting a bias while minimizing their measuring effort. In this paper a seven-step design methodology is described which helps to determine a water quality (WQ) monitoring scheme. Besides using soft sensors as surrogate sensors for parameters currently not available online, they can possibly provide a cost-effective alternative when used to determine multiple parameters required through one single instrument.