Thermal modernisation, renovation and renovation of the main building of the Kornola Makuszyński Primary School in the chain (Q105418): Difference between revisions
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(Created claim: summary (P836): As part of the project, the applicant has planned an investment consisting of the thermal modernisation of the building of the primary school in the chain located in the Municipality of Minsk. The main aim of the project is to improve the quality of social services provided by improving energy efficiency in public buildings. The investment will achieve a 46.43 % increase in the energy efficiency of the building. Scope of the works resulting from...) |
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| Property / summary | |||
As part of the project, the applicant has planned an investment consisting of the thermal modernisation of the building of the primary school in the chain located in the Municipality of Minsk. The main aim of the project is to improve the quality of social services provided by improving energy efficiency in public buildings. The investment will achieve a 46.43 % increase in the energy efficiency of the building. Scope of the works resulting from the energy audit: Upgrading of the MD 1-steel envelope ‘gravity ventilation’ for the upgrading of the division of the MD 3-steelworks, ‘Modernisation of the division of the Z 1’ Division for gravity ventilation ‘Modernisation of the division OZ 10,08’ ‘Modernisation of the division of Z’ — ‘Upgrading of the division of Z 2-Piwnac-’ Wendish 'Modernisation of the sanitary hot water system — Modernisation of the hot water system modernisation of the boundary of the boundary of the boundary of the boundary of the boundary of the Stricublic boundary upgrade of the building division of the building modernisation system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of 1.The amount of energy saved cieplnej:430,60 GJ/year 2. Production of electricity from newly built/new generation capacity for RES — MWHT/tok 11,14 3. Estimated annual decrease in greenhouse gas emissions of 38,58 tonnes CO2/rok. 4 Generation of electricity from newly built renewable generation capacity — MWHT/t11,14 5.Production of thermal energy from newly built/new generation capacity of installations using RES: 26.60 MWh/year. 6 Generation of electricity from newly built generating capacity from RES installations — MWHT/tok 11,14 7. Thermal energy production from newly built generating capacity from RES installations — MWHT/tok 26.60 MWh/year. 8. Reduction of primary energy consumption in public buildings — st/year 160838,33 (English) | |||
| Property / summary: As part of the project, the applicant has planned an investment consisting of the thermal modernisation of the building of the primary school in the chain located in the Municipality of Minsk. The main aim of the project is to improve the quality of social services provided by improving energy efficiency in public buildings. The investment will achieve a 46.43 % increase in the energy efficiency of the building. Scope of the works resulting from the energy audit: Upgrading of the MD 1-steel envelope ‘gravity ventilation’ for the upgrading of the division of the MD 3-steelworks, ‘Modernisation of the division of the Z 1’ Division for gravity ventilation ‘Modernisation of the division OZ 10,08’ ‘Modernisation of the division of Z’ — ‘Upgrading of the division of Z 2-Piwnac-’ Wendish 'Modernisation of the sanitary hot water system — Modernisation of the hot water system modernisation of the boundary of the boundary of the boundary of the boundary of the boundary of the Stricublic boundary upgrade of the building division of the building modernisation system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of 1.The amount of energy saved cieplnej:430,60 GJ/year 2. Production of electricity from newly built/new generation capacity for RES — MWHT/tok 11,14 3. Estimated annual decrease in greenhouse gas emissions of 38,58 tonnes CO2/rok. 4 Generation of electricity from newly built renewable generation capacity — MWHT/t11,14 5.Production of thermal energy from newly built/new generation capacity of installations using RES: 26.60 MWh/year. 6 Generation of electricity from newly built generating capacity from RES installations — MWHT/tok 11,14 7. Thermal energy production from newly built generating capacity from RES installations — MWHT/tok 26.60 MWh/year. 8. Reduction of primary energy consumption in public buildings — st/year 160838,33 (English) / rank | |||
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Revision as of 10:16, 6 March 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Thermal modernisation, renovation and renovation of the main building of the Kornola Makuszyński Primary School in the chain |
Project in Poland financed by DG Regio |
Statements
960,665.06 zloty
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1,673,009.1 zloty
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85.0 percent
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22 June 2016
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15 December 2019
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GMINA MILEJÓW
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W ramach projektu Wnioskodawca zaplanował inwestycję polegającą na termomodernizacji budynku Szkoły podstawowej w Łańcuchowie zlokalizowanej na terenie Gminy Milejów. Celem głównym projektu jest podniesienie jakości świadczonych usług społecznych dzięki poprawie efektywności energetycznej w budynkach użyteczności publicznej. W ramach inwestycji osiągnięte zostanie zwiększenie efektywności energetycznej budynku o 46,43 %. Zakres robót wynikający z audytu energetycznego: Modernizacja przegrody DZ 1-stalowe 'Wentylacja grawitacyjna' Modernizacja przegrody DZ 3-stalowe-kotłownia 'Wentylacja grawitacyjna' Modernizacja przegrody OZ 1 'Wentylacja grawitacyjna' Modernizacja przegrody DZ 2-Piwnca- 'Wentylacja grawitacyjna' Modernizacja systemu ciepłej wody użytkowej Modernizacja przegrody Strop zewnętrzny Modernizacja przegrody Dach Modernizacja przegrody Ściana zewnętrzna Modernizacja przegrody Ściana na gruncie Modernizacja przegrody Dach Modernizacja systemu grzewczego Pozostałe roboty budowlane związane z termomodernizacją Montaż instalacji fotowoltaicznej o mocy 10,08 kWp W ramach inwestycji osiągnięte zostaną następujące wartości wskaźników rezultatu: 1.Ilość zaoszczędzonej energii cieplnej:430,60 GJ/rok 2. Produkcja energii elektrycznej z nowowybudowanych/nowych mocy wytwórczych instalacji wykorzysujących OZE - MWht /tok 11,14 3. Szacowany roczny spadek emisji gazów cieplarnianych 38,58 ton CO2/rok. 4 Produkcja energii elektrycznej z nowowybudowanych mocy wytwórczych instalacji wykorzysujących OZE - MWht /tok 11,14 5.Produkcja energii cieplnej z nowo wybudowanych/nowych mocy wytwórczych instalacji wykorzystujących OZE: 26,60 MWh/rok. 6 Produkcja energii elektrycznej z nowowybudowanych mocy wytwórczych instalacji wykorzysujących OZE - MWht /tok 11,14 7. Produkcja energii cieplnej z nowowybudowanych mocy wytwórczych instalacji wykorzysujących OZE - MWht /tok 26,60 MWh/rok. 8. Zmniejszenie zużycia energii pierwotnej w budynkach publicznych- kwh/rok 160838,33 (Polish)
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As part of the project, the applicant has planned an investment consisting of the thermal modernisation of the building of the primary school in the chain located in the Municipality of Minsk. The main aim of the project is to improve the quality of social services provided by improving energy efficiency in public buildings. The investment will achieve a 46.43 % increase in the energy efficiency of the building. Scope of the works resulting from the energy audit: Upgrading of the MD 1-steel envelope ‘gravity ventilation’ for the upgrading of the division of the MD 3-steelworks, ‘Modernisation of the division of the Z 1’ Division for gravity ventilation ‘Modernisation of the division OZ 10,08’ ‘Modernisation of the division of Z’ — ‘Upgrading of the division of Z 2-Piwnac-’ Wendish 'Modernisation of the sanitary hot water system — Modernisation of the hot water system modernisation of the boundary of the boundary of the boundary of the boundary of the boundary of the Stricublic boundary upgrade of the building division of the building modernisation system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of the heating system. the renovation of 1.The amount of energy saved cieplnej:430,60 GJ/year 2. Production of electricity from newly built/new generation capacity for RES — MWHT/tok 11,14 3. Estimated annual decrease in greenhouse gas emissions of 38,58 tonnes CO2/rok. 4 Generation of electricity from newly built renewable generation capacity — MWHT/t11,14 5.Production of thermal energy from newly built/new generation capacity of installations using RES: 26.60 MWh/year. 6 Generation of electricity from newly built generating capacity from RES installations — MWHT/tok 11,14 7. Thermal energy production from newly built generating capacity from RES installations — MWHT/tok 26.60 MWh/year. 8. Reduction of primary energy consumption in public buildings — st/year 160838,33 (English)
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Identifiers
RPLU.05.02.00-06-0092/16
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