Implementation of industrial research and development aimed at developing new technology for the production of surface measures to limit the development of bacteria and microfragments of silver produced by electrochemical methods on an industrial scale. (Q97930): Difference between revisions
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(Removed claim: summary (P836): The aim of the project is therefore to implement a research agenda that will generate new knowledge in the form of technology to limit the development of bacteria and fungi with the help of nano and microparticles of silver manufactured electrochemical methods (on an industrial scale). On the basis of this knowledge, the applicant will process the process of process innovation in the area of the electrochemical processes they use and also mark...) |
(Created claim: summary (P836): The aim of the project is therefore to implement a research agenda, which will produce new knowledge in the form of technology to limit the growth of bacteria and fungi by means of nano and silver microparticles produced by electrochemical (industrial) methods. On the basis of this knowledge, the applicant will implement a process innovation in the field of its production electrochemical processes, as well as introduce new innovative products in...) |
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The aim of the project is therefore to implement a research agenda, which will produce new knowledge in the form of technology to limit the growth of bacteria and fungi by means of nano and silver microparticles produced by electrochemical (industrial) methods. On the basis of this knowledge, the applicant will implement a process innovation in the field of its production electrochemical processes, as well as introduce new innovative products in the form of safe surfactants limiting the development of fungi and pathogenic bacteria. As a result of the implementation of the new technology, not only process innovation, but also product innovation will be realised. In the field of process innovation, the applicant intends to develop, on the basis of a new technology developed in the course of the project, an advanced nefelometric-turbidymetric-conductometric sensor with an intelligent control system for parameters of electrochemical processes. A process feedback loop based on machine learning and artificial intelligence mechanisms (including classifiers and neural networks) will allow for control of process parameters and resulting in narrow fractions of nano and microparticles. (English) | |||||||||||||||
| Property / summary: The aim of the project is therefore to implement a research agenda, which will produce new knowledge in the form of technology to limit the growth of bacteria and fungi by means of nano and silver microparticles produced by electrochemical (industrial) methods. On the basis of this knowledge, the applicant will implement a process innovation in the field of its production electrochemical processes, as well as introduce new innovative products in the form of safe surfactants limiting the development of fungi and pathogenic bacteria. As a result of the implementation of the new technology, not only process innovation, but also product innovation will be realised. In the field of process innovation, the applicant intends to develop, on the basis of a new technology developed in the course of the project, an advanced nefelometric-turbidymetric-conductometric sensor with an intelligent control system for parameters of electrochemical processes. A process feedback loop based on machine learning and artificial intelligence mechanisms (including classifiers and neural networks) will allow for control of process parameters and resulting in narrow fractions of nano and microparticles. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
| Property / summary: The aim of the project is therefore to implement a research agenda, which will produce new knowledge in the form of technology to limit the growth of bacteria and fungi by means of nano and silver microparticles produced by electrochemical (industrial) methods. On the basis of this knowledge, the applicant will implement a process innovation in the field of its production electrochemical processes, as well as introduce new innovative products in the form of safe surfactants limiting the development of fungi and pathogenic bacteria. As a result of the implementation of the new technology, not only process innovation, but also product innovation will be realised. In the field of process innovation, the applicant intends to develop, on the basis of a new technology developed in the course of the project, an advanced nefelometric-turbidymetric-conductometric sensor with an intelligent control system for parameters of electrochemical processes. A process feedback loop based on machine learning and artificial intelligence mechanisms (including classifiers and neural networks) will allow for control of process parameters and resulting in narrow fractions of nano and microparticles. (English) / qualifier | |||||||||||||||
point in time: 15 October 2020
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Revision as of 22:25, 15 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Implementation of industrial research and development aimed at developing new technology for the production of surface measures to limit the development of bacteria and microfragments of silver produced by electrochemical methods on an industrial scale. |
Project in Poland financed by DG Regio |
Statements
2,228,700.0 zloty
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2,840,500.0 zloty
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78.46 percent
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1 June 2017
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30 September 2018
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NANOTEC SPÓLKA Z OGRANICZONA ODPOWIEDZIALNOŚCIĄ
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Celem projektu jest zatem realizacja agendy badawczej w wyniku której zostanie wytworzona nowa wiedza w postaci technologii do powierzchniowego ograniczania rozwoju bakterii i grzybów przy pomocy nano i mikrocząstek srebra wytwarzanych metodami elektrochemicznymi (w skali przemysłowej). Na bazie tej wiedzy wnioskodawca zrealizuje innowację procesową w zakresie stosowanych przez siebie produkcyjnych procesów elektrochemicznych, a także wprowadzi na rynek nowe, innowacyjne produkty w postaci bezpiecznych środków ograniczających powierzchniowo rozwój grzybów i bakterii chorobotwórczych. W wyniku wdrożenia nowej technologii zostanie zrealizowana nie tylko innowacja procesowa, ale również produktowa. W zakresie innowacji procesowej wnioskodawca zamierza opracować, na bazie wytworzonej w toku projektu nowej technologii, zaawansowany sensor nefelometryczno-turbidymetryczno-konduktometryczny wraz z inteligentnym układem sterowania parametrami procesów elektrochemicznych. Opracowana procesowa pętla zwrotna oparta na mechanizmach uczenia maszynowego i sztucznej inteligencji (w tym klasyfikatorów oraz sieci neuronowych) pozwoli na wysterowanie parametrów procesowych i w wyniku uzyskanie wąskich frakcji nano i mikrocząstek. (Polish)
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The aim of the project is therefore to implement a research agenda, which will produce new knowledge in the form of technology to limit the growth of bacteria and fungi by means of nano and silver microparticles produced by electrochemical (industrial) methods. On the basis of this knowledge, the applicant will implement a process innovation in the field of its production electrochemical processes, as well as introduce new innovative products in the form of safe surfactants limiting the development of fungi and pathogenic bacteria. As a result of the implementation of the new technology, not only process innovation, but also product innovation will be realised. In the field of process innovation, the applicant intends to develop, on the basis of a new technology developed in the course of the project, an advanced nefelometric-turbidymetric-conductometric sensor with an intelligent control system for parameters of electrochemical processes. A process feedback loop based on machine learning and artificial intelligence mechanisms (including classifiers and neural networks) will allow for control of process parameters and resulting in narrow fractions of nano and microparticles. (English)
15 October 2020
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Identifiers
RPKP.01.03.01-04-0067/16
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