Deep thermal refurbishment of a building located in Łopuszna, ul. The 8 Podhalańska system, together with the modernisation of the lighting system and the installation of a micro-PV on the roof of the site (Q112142): Difference between revisions
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(Removed claim: summary (P836): The primary objective of the task is to rationalise the costs of an investor through the thermal modernisation of an installation, to replace a part of the purchased energy from the network by means of a renewable energy source, to reduce the consumption of electricity, and to reduce the use of conventional fuels and to limit the emissions of pollutants into the atmosphere arising from the heat and electricity generation. 237,51 MWha. This mea...) |
(Created claim: summary (P836): The main objective of the task is to rationalise the investor’s costs through the thermal modernisation of the facility, replace part of the energy purchased from the grid with the use of renewable energy, reduce the consumption of electricity, reduce the consumption of conventional fuels and reduce emissions of pollutants into the atmosphere generated in the process of heat and electricity generation.The result of the task is to warm up externa...) |
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Property / summary | |||||||||||||||
The main objective of the task is to rationalise the investor’s costs through the thermal modernisation of the facility, replace part of the energy purchased from the grid with the use of renewable energy, reduce the consumption of electricity, reduce the consumption of conventional fuels and reduce emissions of pollutants into the atmosphere generated in the process of heat and electricity generation.The result of the task is to warm up external construction divisions, modernised heating system, photovoltaic installation of 12.8 kWp on the roof of the facility, and modernised lighting technology. 237,51 MWha. This means that in a professional power plant consumption of 21.14 GJMg of hard coal will be reduced by 1.23 Mga, while at the same time the old coal boiler, which has so far burned 34.36 Mg of hard coal with a calorific value of 25.93 GJMg, will be removed. (English) | |||||||||||||||
Property / summary: The main objective of the task is to rationalise the investor’s costs through the thermal modernisation of the facility, replace part of the energy purchased from the grid with the use of renewable energy, reduce the consumption of electricity, reduce the consumption of conventional fuels and reduce emissions of pollutants into the atmosphere generated in the process of heat and electricity generation.The result of the task is to warm up external construction divisions, modernised heating system, photovoltaic installation of 12.8 kWp on the roof of the facility, and modernised lighting technology. 237,51 MWha. This means that in a professional power plant consumption of 21.14 GJMg of hard coal will be reduced by 1.23 Mga, while at the same time the old coal boiler, which has so far burned 34.36 Mg of hard coal with a calorific value of 25.93 GJMg, will be removed. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
Property / summary: The main objective of the task is to rationalise the investor’s costs through the thermal modernisation of the facility, replace part of the energy purchased from the grid with the use of renewable energy, reduce the consumption of electricity, reduce the consumption of conventional fuels and reduce emissions of pollutants into the atmosphere generated in the process of heat and electricity generation.The result of the task is to warm up external construction divisions, modernised heating system, photovoltaic installation of 12.8 kWp on the roof of the facility, and modernised lighting technology. 237,51 MWha. This means that in a professional power plant consumption of 21.14 GJMg of hard coal will be reduced by 1.23 Mga, while at the same time the old coal boiler, which has so far burned 34.36 Mg of hard coal with a calorific value of 25.93 GJMg, will be removed. (English) / qualifier | |||||||||||||||
point in time: 20 October 2020
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Revision as of 10:55, 20 October 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Deep thermal refurbishment of a building located in Łopuszna, ul. The 8 Podhalańska system, together with the modernisation of the lighting system and the installation of a micro-PV on the roof of the site |
Project in Poland financed by DG Regio |
Statements
171,696.7 zloty
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245,281.0 zloty
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70.0 percent
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18 November 2019
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18 November 2021
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K.B.I D. S.C. KRZYSZTOF BUTAS, KRZYSZTOF NOWAK
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Podstawowym celem zadania jest racjonalizacja kosztów inwestora poprzez termomodernizację użytkowanego obiektu, zastąpienie części energii zakupywanej z sieci własną produkcją przy zastosowaniu odnawialnego źródła energii, zmniejszenie zużycia energii elektrycznej, a także ograniczenie zużycia paliw konwencjonalnych oraz ograniczenie emisji zanieczyszczeń do atmosfery powstających w procesie wytwarzania energii cieplnej i elektrycznej.Rezultatem zadania będą ocieplone zewnętrzne przegrody budowlane, zmodernizowany system grzewczy, instalacja fotowoltaiczna o mocy 12,8 kWp na dachu obiektu oraz zmodernizowany system oświetlenia wykorzystujący technologię LED.Łącznie w wyniku realizacji przedsięwzięcia zostanie zmniejszone zapotrzebowanie na energię końcową o 855,04 GJa, tj. 237,51 MWha. Oznacza to, iż w elektrowni zawodowej zużycie węgla kamiennego o kaloryczności 21,14 GJMg ulegnie zmniejszeniu o 1,23 Mga, natomiast jednocześnie zostanie zlikwidowany stary kocioł węglowy, w którym dotychczas spalano rocznie 34,36 Mg węgla kamiennego o kaloryczności 25,93 GJMg. (Polish)
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The main objective of the task is to rationalise the investor’s costs through the thermal modernisation of the facility, replace part of the energy purchased from the grid with the use of renewable energy, reduce the consumption of electricity, reduce the consumption of conventional fuels and reduce emissions of pollutants into the atmosphere generated in the process of heat and electricity generation.The result of the task is to warm up external construction divisions, modernised heating system, photovoltaic installation of 12.8 kWp on the roof of the facility, and modernised lighting technology. 237,51 MWha. This means that in a professional power plant consumption of 21.14 GJMg of hard coal will be reduced by 1.23 Mga, while at the same time the old coal boiler, which has so far burned 34.36 Mg of hard coal with a calorific value of 25.93 GJMg, will be removed. (English)
20 October 2020
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Identifiers
RPMP.04.02.00-12-0355/18
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