Development and implementation of an innovative, low grade innovative classification with an integrated system for microbial reduction (Q81155): Difference between revisions

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(‎Created claim: summary (P836): Reference_reference_programme_aids:SA.42799 (2015/X), aid_de_de minimis:§ 42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on the provision of financial assistance by the Polish Agency for Enterprise Development in the framework of the Operational Programme Smart Growth 2014-2020 is a research and development service consisting of the development of a low grade fabric with an integrated system generating UV-...)
Property / summary
 
Reference_reference_programme_aids:SA.42799 (2015/X), aid_de_de minimis:§ 42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on the provision of financial assistance by the Polish Agency for Enterprise Development in the framework of the Operational Programme Smart Growth 2014-2020 is a research and development service consisting of the development of a low grade fabric with an integrated system generating UV-C radiation for the purpose of reducing the microbial during use.The project consists of 3 tasks.A model test, including design and simulation of the integration of the UV-C system into a knitted structure, will be carried out within the framework of Task 1.The task is to analyse the applicability of the different fibres and diodes emitting UV-C radiation and the ways in which it is implemented in the fabric.The task will result in the selection of optimal arrangements for the integration of the system with knitted fabric and the preparation of the selected prototypes.In the framework of Task 2, microbiological testing will be carried out on contaminated microorganisms with contamination by sanitary and nosocomial infections.An analysis of the effectiveness of microbial reductions under the impact of UV-C radiation will also be carried out and the total number of micro-organisms will be determined.The task will result in the selection of prototypes which will bring the micro-organism to a reduction of at least 50 %.Activity 3 includes the validation of the prototype and the preparation of the final documentation.On the basis of the most effective reduction in the biological solution, the system will be selected and refined in technical and qualitative terms.The result will be an output innovation characterised by:A microbiological reduction using UV-C diodes in textile materials, including the use of flexible fibres integrated with knitted fabrics, (English)
Property / summary: Reference_reference_programme_aids:SA.42799 (2015/X), aid_de_de minimis:§ 42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on the provision of financial assistance by the Polish Agency for Enterprise Development in the framework of the Operational Programme Smart Growth 2014-2020 is a research and development service consisting of the development of a low grade fabric with an integrated system generating UV-C radiation for the purpose of reducing the microbial during use.The project consists of 3 tasks.A model test, including design and simulation of the integration of the UV-C system into a knitted structure, will be carried out within the framework of Task 1.The task is to analyse the applicability of the different fibres and diodes emitting UV-C radiation and the ways in which it is implemented in the fabric.The task will result in the selection of optimal arrangements for the integration of the system with knitted fabric and the preparation of the selected prototypes.In the framework of Task 2, microbiological testing will be carried out on contaminated microorganisms with contamination by sanitary and nosocomial infections.An analysis of the effectiveness of microbial reductions under the impact of UV-C radiation will also be carried out and the total number of micro-organisms will be determined.The task will result in the selection of prototypes which will bring the micro-organism to a reduction of at least 50 %.Activity 3 includes the validation of the prototype and the preparation of the final documentation.On the basis of the most effective reduction in the biological solution, the system will be selected and refined in technical and qualitative terms.The result will be an output innovation characterised by:A microbiological reduction using UV-C diodes in textile materials, including the use of flexible fibres integrated with knitted fabrics, (English) / rank
 
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Revision as of 09:25, 4 March 2020

Project in Poland financed by DG Regio
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English
Development and implementation of an innovative, low grade innovative classification with an integrated system for microbial reduction
Project in Poland financed by DG Regio

    Statements

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    337,132.95 zloty
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    80,911.908 Euro
    13 January 2020
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    488,121.21 zloty
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    117,149.0904 Euro
    13 January 2020
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    85.0 percent
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    2 January 2019
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    30 June 2020
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    PPHU TRANS-TEX S.C. KRYSTYNA KASZNICKA, KRZYSZTOF KASZNICKI, ADAM KASZNICKI
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    Numer_referencyjny_programu_pomocowego: SA.42799(2015/X), pomoc_de_minimis: §42 rozporządzenia Ministra Infrastruktury i Rozwoju z dnia 10 lipca 2015 r. w sprawie udzielania przez Polską Agencję Rozwoju Przedsiębiorczości pomocy finansowej w ramach Programu Operacyjnego Inteligentny Rozwój 2014–2020 Przedmiotem projektu jest usługa badawczo-rozwojowa, polegająca na opracowaniu dzianiny dystansowej ze zintegrowanym systemem generującym promieniowanie UV-C, w celu redukcji mikrobiologicznej w trakcie użytkowania wyrobu. Projekt składa się z 3 zadań. W ramach zadania 1 zostaną przeprowadzone badania modelowe, w tym zaprojektowanie i symulacja sposobu integracji systemu generującego promieniowanie UV-C w strukturę dzianiny. Zadanie zakłada analizę możliwości zastosowania różnych układów światłowodów i diod emitujących promieniowanie UV-C oraz sposobów ich implementacji w dzianinie. Rezultatem zadania będzie wybór optymalnych rozwiązań integracji systemu z dzianiną oraz przygotowanie wybranych prototypów. W ramach zadania 2 zostaną przygotowane próbki do badań mikrobiologicznych zanieczyszczone wybranymi mikroorganizmami świadczącymi o skażeniu sanitarnym i ważnymi z punktu widzenia zakażeń szpitalnych. Zostanie także przeprowadzona analiza skuteczności redukcji mikrobiologicznej pod wpływem promieniowania UV-C. Dodatkowo zostaną przeprowadzone oznaczenia ogólnej ilości mikroorganizmów. Rezultatem zadania będzie wybór prototypów, które zapewnią redukcję mikroorganizmów na poziomie min. 50%. Zadanie 3 obejmuje walidację prototypu i przygotowanie dokumentacji końcowej. Na podstawie najefektywniejszego pod względem redukcji biologicznej rozwiązania systemu zostanie wybrany i udoskonalony pod względem technicznym i jakościowym prototyp systemu. Rezultatem proj. będzie innowacja produktowa charakteryzująca się: -redukcją mikrobiologiczną z wykorzystaniem diod UV-C w materiale tekstylnym, -użyciem elastycznych światłowodów zintegrowanych z dzianiną, (Polish)
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    Reference_reference_programme_aids:SA.42799 (2015/X), aid_de_de minimis:§ 42 of the Regulation of the Minister of Infrastructure and Development of 10 July 2015 on the provision of financial assistance by the Polish Agency for Enterprise Development in the framework of the Operational Programme Smart Growth 2014-2020 is a research and development service consisting of the development of a low grade fabric with an integrated system generating UV-C radiation for the purpose of reducing the microbial during use.The project consists of 3 tasks.A model test, including design and simulation of the integration of the UV-C system into a knitted structure, will be carried out within the framework of Task 1.The task is to analyse the applicability of the different fibres and diodes emitting UV-C radiation and the ways in which it is implemented in the fabric.The task will result in the selection of optimal arrangements for the integration of the system with knitted fabric and the preparation of the selected prototypes.In the framework of Task 2, microbiological testing will be carried out on contaminated microorganisms with contamination by sanitary and nosocomial infections.An analysis of the effectiveness of microbial reductions under the impact of UV-C radiation will also be carried out and the total number of micro-organisms will be determined.The task will result in the selection of prototypes which will bring the micro-organism to a reduction of at least 50 %.Activity 3 includes the validation of the prototype and the preparation of the final documentation.On the basis of the most effective reduction in the biological solution, the system will be selected and refined in technical and qualitative terms.The result will be an output innovation characterised by:A microbiological reduction using UV-C diodes in textile materials, including the use of flexible fibres integrated with knitted fabrics, (English)
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    Identifiers

    POIR.02.03.02-10-0022/18
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