Fibreoptic equipment for extremely high temperatures applications (Q107973): Difference between revisions
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(Removed claim: summary (P836): The project will develop an innovative device based on multi-core fibre, whose internal structure and appropriate opening of the openings will enable the appropriate conditions to be associated with the power interface between the channels. It will run for 24 months (from 10.2016 to 09.2018). It will consist of 10 assignments (6 for industrial research and 4 for experimental development). The industrial research will set out the construction a...) |
(Created claim: summary (P836): The project will develop an innovative coupling based on a multi-core microstructure fiber, whose internal construction and the proper arrangement of the holes will provide the right conditions for the power coupling between the channels. It will be implemented for 24 months (from 10.2016 to 09.2018). It will consist of 10 Tasks (6 as part of industrial research and 4 in experimental development). Industrial research will determine the construct...) |
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The project will develop an innovative coupling based on a multi-core microstructure fiber, whose internal construction and the proper arrangement of the holes will provide the right conditions for the power coupling between the channels. It will be implemented for 24 months (from 10.2016 to 09.2018). It will consist of 10 Tasks (6 as part of industrial research and 4 in experimental development). Industrial research will determine the construction and manufacture of microstructured fibre for applications in high-temperature couplings, as well as the manufacture and characterisation of the microstructured fibre. Next, the technology will be developed to cut microstructure fibers and perform a combination of MSF and SMF fibres. Later, the parameters of micro-structural fibre penetration will be defined. Later on, technology will be developed for cutting and performing the coupling in the configuration. As part of the development research, actions will be undertaken to produce a demonstrator and analyse customer requirements, make a series of prototypes for fatigue tests, carry out fatigue tests and build and demonstrate a sensor using the developed high temperature coupling. The final result will be the development of a prototype sensor made of developed high-temperature couplings. Under the project, the following expenditure is planned: — salaries of research staff, – purchase of external services (lease of technological lines), – operating costs (consumables), – external audit cost, – indirect costs, – promotion costs, (English) | |||||||||||||||
| Property / summary: The project will develop an innovative coupling based on a multi-core microstructure fiber, whose internal construction and the proper arrangement of the holes will provide the right conditions for the power coupling between the channels. It will be implemented for 24 months (from 10.2016 to 09.2018). It will consist of 10 Tasks (6 as part of industrial research and 4 in experimental development). Industrial research will determine the construction and manufacture of microstructured fibre for applications in high-temperature couplings, as well as the manufacture and characterisation of the microstructured fibre. Next, the technology will be developed to cut microstructure fibers and perform a combination of MSF and SMF fibres. Later, the parameters of micro-structural fibre penetration will be defined. Later on, technology will be developed for cutting and performing the coupling in the configuration. As part of the development research, actions will be undertaken to produce a demonstrator and analyse customer requirements, make a series of prototypes for fatigue tests, carry out fatigue tests and build and demonstrate a sensor using the developed high temperature coupling. The final result will be the development of a prototype sensor made of developed high-temperature couplings. Under the project, the following expenditure is planned: — salaries of research staff, – purchase of external services (lease of technological lines), – operating costs (consumables), – external audit cost, – indirect costs, – promotion costs, (English) / rank | |||||||||||||||
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| Property / summary: The project will develop an innovative coupling based on a multi-core microstructure fiber, whose internal construction and the proper arrangement of the holes will provide the right conditions for the power coupling between the channels. It will be implemented for 24 months (from 10.2016 to 09.2018). It will consist of 10 Tasks (6 as part of industrial research and 4 in experimental development). Industrial research will determine the construction and manufacture of microstructured fibre for applications in high-temperature couplings, as well as the manufacture and characterisation of the microstructured fibre. Next, the technology will be developed to cut microstructure fibers and perform a combination of MSF and SMF fibres. Later, the parameters of micro-structural fibre penetration will be defined. Later on, technology will be developed for cutting and performing the coupling in the configuration. As part of the development research, actions will be undertaken to produce a demonstrator and analyse customer requirements, make a series of prototypes for fatigue tests, carry out fatigue tests and build and demonstrate a sensor using the developed high temperature coupling. The final result will be the development of a prototype sensor made of developed high-temperature couplings. Under the project, the following expenditure is planned: — salaries of research staff, – purchase of external services (lease of technological lines), – operating costs (consumables), – external audit cost, – indirect costs, – promotion costs, (English) / qualifier | |||||||||||||||
point in time: 17 October 2020
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Revision as of 17:28, 17 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Fibreoptic equipment for extremely high temperatures applications |
Project in Poland financed by DG Regio |
Statements
3,219,773.07 zloty
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4,490,750.0 zloty
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71.7 percent
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1 May 2017
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31 December 2018
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IPT APPLIED SPÓŁKA Z OGRANICZONA ODPOWIEDZIALNOSCIA
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52°14'1.3"N, 21°4'17.0"E
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W ramach projektu opracowany zostanie innowacyjny sprzęgacz bazujący na wielordzeniowym włóknie mikrostrukturalnym, którego wewnętrzna budowa oraz odpowiednie ułożenie otworów pozwoli na uzyskanie odpowiednich warunków sprzężenia mocy pomiędzy kanałami. Realizowany będzie przez 24 miesiące (od 10.2016r. do 09.2018r.). Składał się będzie z 10 Zadań (6 w ramach badań przemysłowych oraz 4 w ramach eksperymentalnych prac rozwojowych). W ramach badań przemysłowych przeprowadzone zostanie określenie budowy oraz wykonanie włókna mikrostrukturalnego do zastosowań w sprzęgaczach wysokotemperaturowych oraz wykonanie i charakteryzacja opracowanego włókna mikrostrukturalnego. Następnie opracowana zostanie technologia cięcia włókna mikrostrukturalnego i wykonywania połączenia włókien MSF oraz SMF. W dalszej części określone zostaną parametry przewężeń światłowodu mikrostrukturalnego. W dalszej części opracowana zostanie technologia wykonywania przewężeń oraz wykonywania sprzęgacza w konfiguracji. W ramach badan rozwojowych podjęte będą działania mające na celu wykonanie demonstratora oraz analiza wymagań klientów, wykonanie serii prototypów do testów zmęczeniowych, przeprowadzenie testów zmęczeniowych oraz budowa i demonstracja czujnika wykorzystującego opracowany sprzęgacz wysokotemperaturowy. Finalnie efektem będzie opracowanie prototypu czujnika zbudowanego z opracowanych sprzęgaczy wysokotemperaturowych. W ramach projektu zaplanowano wydatki: - wynagrodzenia personelu badawczego, - zakup usług zewnętrznych (wynajem linii technologicznej), - koszty operacyjne (materiały eksploatacyjne), - koszt audytu zewnętrznego, - koszty pośrednie, - koszty promocji, (Polish)
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The project will develop an innovative coupling based on a multi-core microstructure fiber, whose internal construction and the proper arrangement of the holes will provide the right conditions for the power coupling between the channels. It will be implemented for 24 months (from 10.2016 to 09.2018). It will consist of 10 Tasks (6 as part of industrial research and 4 in experimental development). Industrial research will determine the construction and manufacture of microstructured fibre for applications in high-temperature couplings, as well as the manufacture and characterisation of the microstructured fibre. Next, the technology will be developed to cut microstructure fibers and perform a combination of MSF and SMF fibres. Later, the parameters of micro-structural fibre penetration will be defined. Later on, technology will be developed for cutting and performing the coupling in the configuration. As part of the development research, actions will be undertaken to produce a demonstrator and analyse customer requirements, make a series of prototypes for fatigue tests, carry out fatigue tests and build and demonstrate a sensor using the developed high temperature coupling. The final result will be the development of a prototype sensor made of developed high-temperature couplings. Under the project, the following expenditure is planned: — salaries of research staff, – purchase of external services (lease of technological lines), – operating costs (consumables), – external audit cost, – indirect costs, – promotion costs, (English)
17 October 2020
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Identifiers
RPMA.01.02.00-14-6224/16
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