Improving the energy efficiency of the RESTON building (Q132213): Difference between revisions
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(Removed claim: summary (P836): The main objective of the project is to achieve the best environmental parameters. The project takes into account the following scope of modernisation works: — insulation of external walls -insulation of the roof to heat down the ceiling — Replacement of windows -Exchange of windows -Exchange of doors and external gateways, transparent micro-heating and cooling of the central heating system together with the replacement of the heat source, the...) |
(Created claim: summary (P836): The main objective of the project is to achieve the best environmental parameters possible. The project takes into account the following scope of modernisation work: —Increasing of external walls -Hotification of ceilings -Hotification of the ceiling under unheated attic – Window exchange – Replacement of doors and external gates, transparent partitions -Modernisation of central heating system with heat source exchange -Modernisation of power un...) |
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| Property / summary | |||||||||||||||
The main objective of the project is to achieve the best environmental parameters possible. The project takes into account the following scope of modernisation work: —Increasing of external walls -Hotification of ceilings -Hotification of the ceiling under unheated attic – Window exchange – Replacement of doors and external gates, transparent partitions -Modernisation of central heating system with heat source exchange -Modernisation of power units of hot water systems – replacement of electric water heaters for new, replacement of distribution cables -Modernisation of ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of the internal heating system -Modernisation of internal ventilation system -Modernisation of internal The project fits into the assumption specified in the SzOOP RPO WiM for 4. Priority axis: —Renewable energy consumption index – 99.09 % – Increased energy efficiency – 56,54 % – CO2-99.527 % reduction – Avoid emissions of CO2-38.912 Mg/year. The project creates a list of direct result indicators presented by the Shoop: —heat energy production from newly built RES installations – 52,73 MWht/year – production of electricity from newly built RES installations – 6,87MWhe/year -quantity of saved electricity – 4,14 MWh/year -quantity of heat saved – 265,68 GJ/year List of product indicators generated by the project: —Number of enterprises receiving support – 1 units. —Additional power generation capacity from renewable sources – 0.05 MW – Estimated annual reduction in greenhouse gas emissions – 38,91 MgCO2/year -Number of built electricity generation units from RES- 1pcs. —Number of built units of heat generation from RES – 1pcs. The implementation of the new technology will reduce final energy from 497.09 GJ/year to 216.49 GJ/year. The maintenance costs of the facility in the existing state amount to PLN 24 426.52, after modernisation of PLN 9 581.22. (English) | |||||||||||||||
| Property / summary: The main objective of the project is to achieve the best environmental parameters possible. The project takes into account the following scope of modernisation work: —Increasing of external walls -Hotification of ceilings -Hotification of the ceiling under unheated attic – Window exchange – Replacement of doors and external gates, transparent partitions -Modernisation of central heating system with heat source exchange -Modernisation of power units of hot water systems – replacement of electric water heaters for new, replacement of distribution cables -Modernisation of ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of the internal heating system -Modernisation of internal ventilation system -Modernisation of internal The project fits into the assumption specified in the SzOOP RPO WiM for 4. Priority axis: —Renewable energy consumption index – 99.09 % – Increased energy efficiency – 56,54 % – CO2-99.527 % reduction – Avoid emissions of CO2-38.912 Mg/year. The project creates a list of direct result indicators presented by the Shoop: —heat energy production from newly built RES installations – 52,73 MWht/year – production of electricity from newly built RES installations – 6,87MWhe/year -quantity of saved electricity – 4,14 MWh/year -quantity of heat saved – 265,68 GJ/year List of product indicators generated by the project: —Number of enterprises receiving support – 1 units. —Additional power generation capacity from renewable sources – 0.05 MW – Estimated annual reduction in greenhouse gas emissions – 38,91 MgCO2/year -Number of built electricity generation units from RES- 1pcs. —Number of built units of heat generation from RES – 1pcs. The implementation of the new technology will reduce final energy from 497.09 GJ/year to 216.49 GJ/year. The maintenance costs of the facility in the existing state amount to PLN 24 426.52, after modernisation of PLN 9 581.22. (English) / rank | |||||||||||||||
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| Property / summary: The main objective of the project is to achieve the best environmental parameters possible. The project takes into account the following scope of modernisation work: —Increasing of external walls -Hotification of ceilings -Hotification of the ceiling under unheated attic – Window exchange – Replacement of doors and external gates, transparent partitions -Modernisation of central heating system with heat source exchange -Modernisation of power units of hot water systems – replacement of electric water heaters for new, replacement of distribution cables -Modernisation of ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of the internal heating system -Modernisation of internal ventilation system -Modernisation of internal The project fits into the assumption specified in the SzOOP RPO WiM for 4. Priority axis: —Renewable energy consumption index – 99.09 % – Increased energy efficiency – 56,54 % – CO2-99.527 % reduction – Avoid emissions of CO2-38.912 Mg/year. The project creates a list of direct result indicators presented by the Shoop: —heat energy production from newly built RES installations – 52,73 MWht/year – production of electricity from newly built RES installations – 6,87MWhe/year -quantity of saved electricity – 4,14 MWh/year -quantity of heat saved – 265,68 GJ/year List of product indicators generated by the project: —Number of enterprises receiving support – 1 units. —Additional power generation capacity from renewable sources – 0.05 MW – Estimated annual reduction in greenhouse gas emissions – 38,91 MgCO2/year -Number of built electricity generation units from RES- 1pcs. —Number of built units of heat generation from RES – 1pcs. The implementation of the new technology will reduce final energy from 497.09 GJ/year to 216.49 GJ/year. The maintenance costs of the facility in the existing state amount to PLN 24 426.52, after modernisation of PLN 9 581.22. (English) / qualifier | |||||||||||||||
point in time: 21 October 2020
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Revision as of 16:59, 21 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Improving the energy efficiency of the RESTON building |
Project in Poland financed by DG Regio |
Statements
491,485.16 zloty
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578,217.84 zloty
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85.0 percent
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1 July 2019
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30 June 2020
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RESTON, MAREK SADOWSKI
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54°15'20.9"N, 20°48'24.5"E
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Głównym celem projektu jest osiągnięcie jak najlepszych parametrów środowiskowych. W projekcie uwzględniono następujący zakres prac modernizacyjnych: -Docieplenie ścian zewnętrznych -Docieplenie stropodachu -Docieplenie stropu pod nieogrzewanym poddaszem -Wymiana okien -Wymiana drzwi i bram zewnętrznych, przegród przezroczystych -Modernizacja instalacji centralnego ogrzewania wraz z wymianą źródła ciepła -Modernizacja instalacji ciepłej wody użytkowej- wymiana elektrycznych pojemnościowych ogrzewaczy wody na nowe, wymiana przewodów rozprowadzających -Modernizacja systemu wentylacji -Modernizacja instalacji oświetlenia wewnętrznego -Montaż paneli fotowoltaicznych, o mocy 6,6 kW, sztuk 20 o mocy 330 W każdy. Projekt wpisuje się w założenia określonej w SzOOP RPO WiM dla 4. Osi Priorytetowej: -Wskaźnik wykorzystania energii odnawialnej – 99,09% -Zwiększona efektywność energetyczna – 56,54% -Redukcja CO2 – 99,527% -Uniknięta emisja zanieczyszczeń CO2 – 38,912 Mg/rok. Projekt kreuje listę wskaźników rezultatu bezpośredniego, którą prezentuje SzOOP: -produkcję energii cieplnej z nowo wybudowanych instalacji wykorzystujących OZE – 52,73 MWht/rok -produkcję energii elektrycznej z nowo wybudowanych instalacji wykorzystujących OZE – 6,87MWhe/rok -ilość zaoszczędzonej energii elektrycznej – 4,14 MWh/rok -ilość zaoszczędzonej energii cieplnej – 265,68 GJ/rok Lista wskaźników produktu generowanych przez projekt: -Liczba przedsiębiorstw otrzymujących wsparcie- 1 szt. -Dodatkowa zdolność wytwarzania energii ze źródeł odnawialnych- 0,05 MW -Szacowany roczny spadek emisji gazów cieplarnianych- 38,91 MgCO2/rok -Liczba wybudowanych jednostek wytwarzania energii elektrycznej z OZE- 1szt. -Liczba wybudowanych jednostek wytwarzania energii cieplnej z OZE- 1szt. Dzięki wdrożeniu nowej technologii zmniejszeniu ulegnie energia końcowa z 497,09 GJ/rok do 216,49 GJ/rok. Koszty utrzymania obiektu w stanie istniejącym wynoszą 24 426,52 zł, po modernizacji 9 581,22 zł. (Polish)
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The main objective of the project is to achieve the best environmental parameters possible. The project takes into account the following scope of modernisation work: —Increasing of external walls -Hotification of ceilings -Hotification of the ceiling under unheated attic – Window exchange – Replacement of doors and external gates, transparent partitions -Modernisation of central heating system with heat source exchange -Modernisation of power units of hot water systems – replacement of electric water heaters for new, replacement of distribution cables -Modernisation of ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal ventilation system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating system -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernisation of internal heating systems -Modernation of internal heating systems -Modernisation of internal heating systems -Modernisation of the internal heating system -Modernisation of internal ventilation system -Modernisation of internal The project fits into the assumption specified in the SzOOP RPO WiM for 4. Priority axis: —Renewable energy consumption index – 99.09 % – Increased energy efficiency – 56,54 % – CO2-99.527 % reduction – Avoid emissions of CO2-38.912 Mg/year. The project creates a list of direct result indicators presented by the Shoop: —heat energy production from newly built RES installations – 52,73 MWht/year – production of electricity from newly built RES installations – 6,87MWhe/year -quantity of saved electricity – 4,14 MWh/year -quantity of heat saved – 265,68 GJ/year List of product indicators generated by the project: —Number of enterprises receiving support – 1 units. —Additional power generation capacity from renewable sources – 0.05 MW – Estimated annual reduction in greenhouse gas emissions – 38,91 MgCO2/year -Number of built electricity generation units from RES- 1pcs. —Number of built units of heat generation from RES – 1pcs. The implementation of the new technology will reduce final energy from 497.09 GJ/year to 216.49 GJ/year. The maintenance costs of the facility in the existing state amount to PLN 24 426.52, after modernisation of PLN 9 581.22. (English)
21 October 2020
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Identifiers
RPWM.04.02.00-28-0071/18
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