Development of an integrated system for accurate microclimate control of large utility facilities to meet the requirements for NZEB (NZEB). (Q78252): Difference between revisions
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(Removed claim: summary (P836): The aim of the project is to develop an internationally innovative system for the control of the micro-climate control system in order to enable large commercial sites (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the requirements of the definition of nearly zero energy buildings (so called “NZEB” (“NZEB”) in terms of useful heat, ventilation and air conditioning.In accordance with Directive 2010/31/EU, all...) |
(Created claim: summary (P836): The aim of the project is to develop a globally innovative microclimate control system, enabling large utility facilities (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the definition of almost zero energy buildings (NZEB – Nearly Zero-Energy Buildings) in terms of useful heat, ventilation and air conditioning. According to Directive 2010/31/EU, since 2019, all public buildings, and since 2021 all new construct...) |
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The aim of the project is to develop a globally innovative microclimate control system, enabling large utility facilities (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the definition of almost zero energy buildings (NZEB – Nearly Zero-Energy Buildings) in terms of useful heat, ventilation and air conditioning. According to Directive 2010/31/EU, since 2019, all public buildings, and since 2021 all new construction works, must comply with the NZEB requirements. The subject of the project are R & D works, the implementation of which will enable the implementation and commencement of the sale of a competitive and technologically advanced microclimate control system, which, in addition to standard equipment, will include innovative solutions developed within the framework of research solutions: 1. Gas – three-generation gas unit – innovative gas heat pump. 2. MRR – multifunctional regenerator – high-performance air-air heat exchanger. 3. A control module with adaptive and predictive function, using neural algorithms. The results of the project will allow for: GAT: — Optimal use of fuel chemical energy. — Energy recovery from thermodynamic processes. MRR: Adjustable moisture recovery from used air without primary energy. Preventing frosting of exchangers without primary energy consumption. Biocidal nanoshells of exchanger plates. Innovative cooling using steam enthalpy. Control module: No need to supervise and adjust devices;Provision of needs of buildings and gradual adjustment of the system to system parameters in cycles (e.g. weekly). 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). (English) | |||||||||||||||
Property / summary: The aim of the project is to develop a globally innovative microclimate control system, enabling large utility facilities (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the definition of almost zero energy buildings (NZEB – Nearly Zero-Energy Buildings) in terms of useful heat, ventilation and air conditioning. According to Directive 2010/31/EU, since 2019, all public buildings, and since 2021 all new construction works, must comply with the NZEB requirements. The subject of the project are R & D works, the implementation of which will enable the implementation and commencement of the sale of a competitive and technologically advanced microclimate control system, which, in addition to standard equipment, will include innovative solutions developed within the framework of research solutions: 1. Gas – three-generation gas unit – innovative gas heat pump. 2. MRR – multifunctional regenerator – high-performance air-air heat exchanger. 3. A control module with adaptive and predictive function, using neural algorithms. The results of the project will allow for: GAT: — Optimal use of fuel chemical energy. — Energy recovery from thermodynamic processes. MRR: Adjustable moisture recovery from used air without primary energy. Preventing frosting of exchangers without primary energy consumption. Biocidal nanoshells of exchanger plates. Innovative cooling using steam enthalpy. Control module: No need to supervise and adjust devices;Provision of needs of buildings and gradual adjustment of the system to system parameters in cycles (e.g. weekly). 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). (English) / rank | |||||||||||||||
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Property / summary: The aim of the project is to develop a globally innovative microclimate control system, enabling large utility facilities (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the definition of almost zero energy buildings (NZEB – Nearly Zero-Energy Buildings) in terms of useful heat, ventilation and air conditioning. According to Directive 2010/31/EU, since 2019, all public buildings, and since 2021 all new construction works, must comply with the NZEB requirements. The subject of the project are R & D works, the implementation of which will enable the implementation and commencement of the sale of a competitive and technologically advanced microclimate control system, which, in addition to standard equipment, will include innovative solutions developed within the framework of research solutions: 1. Gas – three-generation gas unit – innovative gas heat pump. 2. MRR – multifunctional regenerator – high-performance air-air heat exchanger. 3. A control module with adaptive and predictive function, using neural algorithms. The results of the project will allow for: GAT: — Optimal use of fuel chemical energy. — Energy recovery from thermodynamic processes. MRR: Adjustable moisture recovery from used air without primary energy. Preventing frosting of exchangers without primary energy consumption. Biocidal nanoshells of exchanger plates. Innovative cooling using steam enthalpy. Control module: No need to supervise and adjust devices;Provision of needs of buildings and gradual adjustment of the system to system parameters in cycles (e.g. weekly). 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). (English) / qualifier | |||||||||||||||
point in time: 14 October 2020
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Revision as of 12:02, 14 October 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Development of an integrated system for accurate microclimate control of large utility facilities to meet the requirements for NZEB (NZEB). |
Project in Poland financed by DG Regio |
Statements
Q2524466 (Deleted Item)
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6,567,251.78 zloty
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13,921,601.81 zloty
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47.17 percent
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1 July 2017
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31 December 2019
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FRAPOL SP. Z O.O.
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Celem projektu jest opracowanie innowacyjnego w skali świata systemu kontroli mikroklimatu wnętrz, umożliwiającego dużym obiektom użytkowym (np. hotele, szpitale, obiekty sportowe, w szczególności baseny) spełnienie wymagań definicji budynków o niemal zerowym zapotrzebowaniu na energię (tzw. nZEB - Nearly Zero-Energy Buildings) w zakresie ciepła użytkowego, wentylacji i klimatyzacji. Zgodnie z Dyrektywą 2010/31/UE od roku 2019 wszystkie budynki publiczne, a od roku 2021 roku już wszystkie nowopowstające obiekty budowlane, muszą spełniać wymagania nZEB. Przedmiotem projektu są prace B+R, których realizacja umożliwi wdrożenie i rozpoczęcie sprzedaży konkurencyjnego i zaawansowanego technologicznie systemu kontroli mikroklimatu, w skład którego oprócz standardowych urządzeń, wejdą innowacyjne, opracowane w ramach badań rozwiązania: 1. GAT - gazowy agregat trójgeneracyjny - innowacyjna, gazowa pompa ciepła. 2. MRR - multifunkcyjny regenerator rewersyjny - wysokosprawny wymiennik ciepła powietrze-powietrze. 3. Moduł sterowania z funkcją adaptacyjno-predykcyjną, wykorzystujący algorytmy neuronowe. Rezultaty projektu pozwolą na: GAT: - Optymalne wykorzystanie energii chemicznej paliwa. - Odzysk energii z procesów termodynamicznych. MRR: Regulowany odzysk wilgoci z powietrza zużytego bez udziału energii pierwotnej. Zapobieganie zaszronieniu wymienników bez zużycia energii pierwotnej. Biobójcze nanopowłoki płyt wymiennika. Innowacyjne chłodzenie z wykorzystaniem entalpii pary wodnej. Moduł sterowania: Brak konieczności nadzorowania oraz nastawiania urządzeń;Przewidywanie potrzeb budynków oraz stopniowe dostosowywanie się systemu do parametrów układu w cyklach (np. tygodniowym). 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). (Polish)
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The aim of the project is to develop a globally innovative microclimate control system, enabling large utility facilities (e.g. hotels, hospitals, sports facilities, in particular swimming pools) to meet the definition of almost zero energy buildings (NZEB – Nearly Zero-Energy Buildings) in terms of useful heat, ventilation and air conditioning. According to Directive 2010/31/EU, since 2019, all public buildings, and since 2021 all new construction works, must comply with the NZEB requirements. The subject of the project are R & D works, the implementation of which will enable the implementation and commencement of the sale of a competitive and technologically advanced microclimate control system, which, in addition to standard equipment, will include innovative solutions developed within the framework of research solutions: 1. Gas – three-generation gas unit – innovative gas heat pump. 2. MRR – multifunctional regenerator – high-performance air-air heat exchanger. 3. A control module with adaptive and predictive function, using neural algorithms. The results of the project will allow for: GAT: — Optimal use of fuel chemical energy. — Energy recovery from thermodynamic processes. MRR: Adjustable moisture recovery from used air without primary energy. Preventing frosting of exchangers without primary energy consumption. Biocidal nanoshells of exchanger plates. Innovative cooling using steam enthalpy. Control module: No need to supervise and adjust devices;Provision of needs of buildings and gradual adjustment of the system to system parameters in cycles (e.g. weekly). 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). (English)
14 October 2020
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Identifiers
POIR.01.01.01-00-0720/16
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