Q3332869 (Q3332869): Difference between revisions
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(Changed label, description and/or aliases in en: Setting new description) |
(Created claim: summary (P836): Development of a cost-effective ozone generator for residue-free disinfection in catering, household and sanitary applications. This requires the development of a microfluidic control system to control the electrolysis cell and operate it over long periods of operation with an optimal cross-section. The project share of GO Systemelektronik includes the signal preparation of the integrated microsensors and the control of electrolysis cells with c...) |
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Development of a cost-effective ozone generator for residue-free disinfection in catering, household and sanitary applications. This requires the development of a microfluidic control system to control the electrolysis cell and operate it over long periods of operation with an optimal cross-section. The project share of GO Systemelektronik includes the signal preparation of the integrated microsensors and the control of electrolysis cells with changing polarities. (English) | |||||||||||||||
| Property / summary: Development of a cost-effective ozone generator for residue-free disinfection in catering, household and sanitary applications. This requires the development of a microfluidic control system to control the electrolysis cell and operate it over long periods of operation with an optimal cross-section. The project share of GO Systemelektronik includes the signal preparation of the integrated microsensors and the control of electrolysis cells with changing polarities. (English) / rank | |||||||||||||||
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| Property / summary: Development of a cost-effective ozone generator for residue-free disinfection in catering, household and sanitary applications. This requires the development of a microfluidic control system to control the electrolysis cell and operate it over long periods of operation with an optimal cross-section. The project share of GO Systemelektronik includes the signal preparation of the integrated microsensors and the control of electrolysis cells with changing polarities. (English) / qualifier | |||||||||||||||
point in time: 25 October 2021
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Revision as of 07:50, 25 October 2021
Project Q3332869 in Germany
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3332869 in Germany |
Statements
219,649.57 Euro
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467,339.52 Euro
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47.0 percent
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1 April 2017
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30 June 2020
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GO Systemelektronik GmbH
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24109 Kiel
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Entwicklung eines kostengünstigen Ozongenerators zur rückstandsfreien Desinfektion im Bereich Gastronomie, Haushalt und Sanitär-Anwendung. Notwendig hierzu ist die Entwicklung eines Mikrofluidik-Kontrollsystems, um die Elektrolysezelle kontrolliert und mit optimalem Wirkungsquerschnitt auch über lange Einsatzperioden zu betreiben. Der Projektanteil der GO Systemelektronik beinhaltet die Signalaufbereitung der integrierten Mikrosensoren und die Ansteuerung der Elektrolysezellen mit wechselnden Polaritäten. (German)
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Development of a cost-effective ozone generator for residue-free disinfection in catering, household and sanitary applications. This requires the development of a microfluidic control system to control the electrolysis cell and operate it over long periods of operation with an optimal cross-section. The project share of GO Systemelektronik includes the signal preparation of the integrated microsensors and the control of electrolysis cells with changing polarities. (English)
25 October 2021
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Identifiers
DE_TEMPORARY_35514
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