LPW-E/1.2.2/656 — MICROOZONE (Q3332871): Difference between revisions
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(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 ISIT includes the development of the multi-sensor chip and the production of electrode substrates., translated_summary) |
(Changed label, description and/or aliases in en: translated_label) |
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label / en | label / en | ||
LPW-E/1.2.2/656 — MICROOZONE |
Revision as of 07:50, 25 October 2021
Project Q3332871 in Germany
Language | Label | Description | Also known as |
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English | LPW-E/1.2.2/656 — MICROOZONE |
Project Q3332871 in Germany |
Statements
356,895.36 Euro
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759,351.83 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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Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V.Zuwendungen und EU-Projekte
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25524 Itzehoe
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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 des ISIT umfasst die Entwicklung des Multi-Sensorchips und die Fertigung der Elektrodensubstrate. (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 ISIT includes the development of the multi-sensor chip and the production of electrode substrates. (English)
25 October 2021
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Identifiers
DE_TEMPORARY_35516
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