Cooling system components manufacturing technology (Q78474): Difference between revisions
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(Removed claim: summary (P836): Reference_reference_programme_aids:SA.41471 (2015/X) _public:Article 25 of Commission Regulation (EC) No 651/2014 of 17 June 2014 declaring certain categories of aid compatible with the internal market in the application of Article 107 and 108 of the Treaty (OJ(OJ LEU L 187/1, 26.06.2014).The aim of the project is to develop an economically efficient technology for the production of the components of refrigeration systems and to demonstrate it...) |
(Created claim: summary (P836): Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The aim of the project is to develop an economically efficient technology for the production of refrigeration components and to confirm its usefu...) |
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Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The aim of the project is to develop an economically efficient technology for the production of refrigeration components and to confirm its usefulness for industrial applications. The indirect objective is to achieve a market advantage by automating the manufacturing process of components, allowing it to increase its efficiency while reducing material intensity and energy intensity. The project consists of 3 stages of industrial research in which it was planned to develop a new low-cost technology for the production of two components of refrigeration systems and one stage of development, including optimisation of production processes and component construction. The first is a heat exchanger in the form of a liquid cooler, which creates existing elements of the refrigeration system in the installation: capillary refrigerant expansion cap (connecting outlet from condenser with inlet into the evaporator) and suction tube (connecting outlet from the evaporator with the suction adapter of the refrigerating compressor). This exchanger hereinafter referred to as the suction tube is bonded with its own technology according to a unique concept using thermally active tape developed within the framework of the project. The second element is the immersion tube connecting the refrigerating compressor to the condenser. This tube is immersed in a condenser container that flows from the evaporator during defrosting to intensify the evaporation process of condensation while draining some of the condensation heat. On it, a barrier layer will be created using continuous application as an alternative to the currently used shrink coatings. The new design of the products will be an innovation on a global scale. (English) | |||||||||||||||
| Property / summary: Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The aim of the project is to develop an economically efficient technology for the production of refrigeration components and to confirm its usefulness for industrial applications. The indirect objective is to achieve a market advantage by automating the manufacturing process of components, allowing it to increase its efficiency while reducing material intensity and energy intensity. The project consists of 3 stages of industrial research in which it was planned to develop a new low-cost technology for the production of two components of refrigeration systems and one stage of development, including optimisation of production processes and component construction. The first is a heat exchanger in the form of a liquid cooler, which creates existing elements of the refrigeration system in the installation: capillary refrigerant expansion cap (connecting outlet from condenser with inlet into the evaporator) and suction tube (connecting outlet from the evaporator with the suction adapter of the refrigerating compressor). This exchanger hereinafter referred to as the suction tube is bonded with its own technology according to a unique concept using thermally active tape developed within the framework of the project. The second element is the immersion tube connecting the refrigerating compressor to the condenser. This tube is immersed in a condenser container that flows from the evaporator during defrosting to intensify the evaporation process of condensation while draining some of the condensation heat. On it, a barrier layer will be created using continuous application as an alternative to the currently used shrink coatings. The new design of the products will be an innovation on a global scale. (English) / rank | |||||||||||||||
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| Property / summary: Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The aim of the project is to develop an economically efficient technology for the production of refrigeration components and to confirm its usefulness for industrial applications. The indirect objective is to achieve a market advantage by automating the manufacturing process of components, allowing it to increase its efficiency while reducing material intensity and energy intensity. The project consists of 3 stages of industrial research in which it was planned to develop a new low-cost technology for the production of two components of refrigeration systems and one stage of development, including optimisation of production processes and component construction. The first is a heat exchanger in the form of a liquid cooler, which creates existing elements of the refrigeration system in the installation: capillary refrigerant expansion cap (connecting outlet from condenser with inlet into the evaporator) and suction tube (connecting outlet from the evaporator with the suction adapter of the refrigerating compressor). This exchanger hereinafter referred to as the suction tube is bonded with its own technology according to a unique concept using thermally active tape developed within the framework of the project. The second element is the immersion tube connecting the refrigerating compressor to the condenser. This tube is immersed in a condenser container that flows from the evaporator during defrosting to intensify the evaporation process of condensation while draining some of the condensation heat. On it, a barrier layer will be created using continuous application as an alternative to the currently used shrink coatings. The new design of the products will be an innovation on a global scale. (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 12:50, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Cooling system components manufacturing technology |
Project in Poland financed by DG Regio |
Statements
5,699,403.44 zloty
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7,713,335.0 zloty
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73.89 percent
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1 January 2018
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29 February 2020
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"SINTUR" SPÓŁKA Z OGRANICZONA ODPOWIEDZIALNOŚCIĄ
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52°0'58.3"N, 18°30'41.0"E
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Numer_referencyjny_programu_pomocowego: SA.41471(2015/X) Przeznaczenie_pomocy_publicznej: art. 25 rozporządzenia KE nr 651/2014 z dnia 17 czerwca 2014 r. uznające niektóre rodzaje pomocy za zgodne z rynkiem wewnętrznym w stosowaniu art. 107 i 108 Traktatu (Dz. Urz. UE L 187/1 z 26.06.2014). Celem projektu jest opracowanie efektywnej ekonomicznie technologii wytwarzania komponentów układów chłodniczych oraz potwierdzenie jej przydatności dla zastosowań przemysłowych. Celem pośrednim jest uzyskanie przewagi rynkowej poprzez zautomatyzowanie procesu wytwarzania komponentów pozwalając na zwiększenie jego wydajności przy obniżeniu materiałochłonności i energochłonności. Projekt składa się z 3 etapów badań przemysłowych w ramach, których zaplanowano opracowanie nowej, nisko kosztowej technologii wytwarzania dwóch komponentów układów chłodniczych oraz jednego etapu prac rozwojowych obejmującego optymalizację procesów produkcyjnych i konstrukcji komponentów. Pierwszy z nich to wymiennik ciepła w postaci dochładzacza cieczy, który tworzą istniejące w instalacji elementy układu chłodniczego: kapilara rozprężająca czynnik chłodniczy (łącząca wylot ze skraplacza z wlotem do parownika) oraz rurka ssawna (łącząca wylot z parownika z króćcem ssawnym sprężarki chłodniczej). Wymiennik ten zwany dalej rurką ssącą jest spajany autorską technologią według unikalnej koncepcji z wykorzystaniem taśmy termicznie aktywnej, opracowanej w ramach projektu. Drugim elementem jest rurka zanurzeniowa łącząca króciec tłoczny sprężarki chłodniczej ze skraplaczem. Rurka ta jest zanurzona w pojemniku ze skroplinami spływającymi z parownika podczas jego odtajania w celu zintensyfikowania procesu odparowania skroplin, przy jednoczesnym odprowadzeniu części ciepła skraplania. Na niej metodą nanoszenia ciągłego tworzona będzie warstwa barierowa jako alternatywa dla obecnie stosowanych powłok termokurczliwych. Nowa konstrukcja wyrobów będzie stanowiła innowację w skali globalnej. (Polish)
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Reference number of the aid programme: SA.41471(2015/X) Purpose of public aid: Article 25 of EC Regulation No 651/2014 of 17 June 2014 declaring certain types of aid compatible with the internal market in the application of Articles 107 and 108 of the Treaty (OJ L. I'm sorry. EU L 187/1 of 26.06.2014). The aim of the project is to develop an economically efficient technology for the production of refrigeration components and to confirm its usefulness for industrial applications. The indirect objective is to achieve a market advantage by automating the manufacturing process of components, allowing it to increase its efficiency while reducing material intensity and energy intensity. The project consists of 3 stages of industrial research in which it was planned to develop a new low-cost technology for the production of two components of refrigeration systems and one stage of development, including optimisation of production processes and component construction. The first is a heat exchanger in the form of a liquid cooler, which creates existing elements of the refrigeration system in the installation: capillary refrigerant expansion cap (connecting outlet from condenser with inlet into the evaporator) and suction tube (connecting outlet from the evaporator with the suction adapter of the refrigerating compressor). This exchanger hereinafter referred to as the suction tube is bonded with its own technology according to a unique concept using thermally active tape developed within the framework of the project. The second element is the immersion tube connecting the refrigerating compressor to the condenser. This tube is immersed in a condenser container that flows from the evaporator during defrosting to intensify the evaporation process of condensation while draining some of the condensation heat. On it, a barrier layer will be created using continuous application as an alternative to the currently used shrink coatings. The new design of the products will be an innovation on a global scale. (English)
14 October 2020
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Identifiers
POIR.01.01.01-00-0934/17
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