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This work deals with an adaptable water reactor design built from different modules as a basis for research. These modules are selected according to the application and are used for sensor related cleaning and supporting tasks. For example, to produce a specific water quality or for pharmaceutical applications. Sensor related modules are used to measure various parameters such as temperature, TOC, flow parameters and others. In addition to simple membrane filter modules, UVC disinfection and experimental modules are integrated into the setup. Modules for pumping processes, for power supply such as solar, for control tasks and the connection systems of water and electricity between modules are also outlined. This system is described on the basis of scientific examples that use this system. In more detail the modules for temperature, TOC measurement, and UV-C disinfection as well as the supply and control modules are shown.

Heinrich, M., Hauschultz, M., Di Vona, M.l., Pizzoferrato, R., Foitzik, A.h. (2023). Conception of a multi-component water system with individually adaptable modules for measuring diverse parameters and a variability of the purification output quality. In Technologies in Materials Research and Application (pp. 65-71). Trans Tech [10.4028/p-Hm7pq8].

Conception of a multi-component water system with individually adaptable modules for measuring diverse parameters and a variability of the purification output quality

Heinrich M.;Hauschultz M.;Di Vona M. L.;Pizzoferrato R.;
2023-01-01

Abstract

This work deals with an adaptable water reactor design built from different modules as a basis for research. These modules are selected according to the application and are used for sensor related cleaning and supporting tasks. For example, to produce a specific water quality or for pharmaceutical applications. Sensor related modules are used to measure various parameters such as temperature, TOC, flow parameters and others. In addition to simple membrane filter modules, UVC disinfection and experimental modules are integrated into the setup. Modules for pumping processes, for power supply such as solar, for control tasks and the connection systems of water and electricity between modules are also outlined. This system is described on the basis of scientific examples that use this system. In more detail the modules for temperature, TOC measurement, and UV-C disinfection as well as the supply and control modules are shown.
2023
Settore PHYS-03/A - Fisica sperimentale della materia e applicazioni
Settore PHYS-06/A - Fisica per le scienze della vita, l'ambiente e i beni culturali
English
Rilevanza internazionale
Capitolo o saggio
Additive Manufacturing; Conductivity; Disinfection; Easy Setup and Dismantling; Microcontroller; Modular System; Re-usability; Sensors; Thermec 2023; TOC; UV-C; Water Treatment
Heinrich, M., Hauschultz, M., Di Vona, M.l., Pizzoferrato, R., Foitzik, A.h. (2023). Conception of a multi-component water system with individually adaptable modules for measuring diverse parameters and a variability of the purification output quality. In Technologies in Materials Research and Application (pp. 65-71). Trans Tech [10.4028/p-Hm7pq8].
Heinrich, M; Hauschultz, M; Di Vona, Ml; Pizzoferrato, R; Foitzik, Ah
Contributo in libro
03 - Contributo in libro
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/391505
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