Implementation of building energy development at One-Profit Kft. (Q3925084): Difference between revisions

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Property / summary
 
A. Project preparation activities: At the time of submission of the project, the building energy annex, the static opinion and the technical description of the planned investment were prepared. The project planned in the framework of the project is not subject to a building permit, so the preparation of a complete permit and construction plan documentation is not relevant. Government Decree No 314/2005 on the environmental impact assessment procedure and the uniform environmental use permit procedure (XII. 25) the preparation of an environmental impact assessment is not relevant in accordance with Government Decree No 25/2004. Activities: B.I. Improving the thermal capabilities of buildings and reducing their heat loss: — Improvement of the thermal insulation of parts of the building: the building needs to be thermally insulated with 15 cm thick polystyrene foam in dryvit system. The surface design of quartz putz is done with thin mortar coating. Increasing the thermal insulation of the attic floor is solved with 20 cm thick rock wool spreading. — Replacement of building envelopes considered as doors and windows separating heated and unheated spaces/upgrading resulting in energy savings: given that the thermal equipment of the building is very weak, all doors (13 windows, 1 entrance door, 1 rear entrance door, 1 balcony door) must be replaced on the house. The windows are replaced with plastic doors and windows which are highly insulated (3 layers of glazing, 5 chambers custom-made and shuttered). B.II. Upgrading of heating, cooling and domestic hot water systems in buildings: — Modernisation of heating and/or domestic hot water systems: the heating upgrade is solved with a water-water heat pump system. This is characterised by a relatively low forward heat flow. This necessitates the design of a better heat take-off surface, which is solved with dimensioned 2 or 3 layers of sheet radiators. Radiators are connected to heat pumps by soldered copper tube fittings 18-28 mm in diameter. In the boiler room is placed the expansion tank, the circulating pump. C. Activities to increase renewable energy use: — Installation of 20 KW solar panel system: the planned 80 panels can be installed in 2 places above the provisory outbuildings. The planned steel structure is 9x7 m and 3x13 m respectively. Steel columns rely on existing space concrete, height 2.5 and 3.5 m. Designed solar panel boards are 270 W Amerisolar type. The associated 3-phase inverter Growatt type. From the inverter to the saldo in the building, MK 25 cable will be installed, partly installed as an air cable. A WIFI module is also installed for the system. — Installation of heat pumps: The head office has a 6 m deep, drilled, high capacity well. Thus, it is possible to develop a water-to-water heat pump heating system. According to the plans, 220 kW SPARK-WW 20 H heat pumps will be installed in the boiler room. Average heat pump data: goodness degree (CP) 4,7, current consumption 2x6,9. The power is 2x6,9 KW for the planned water flow. The heat pumps are connected in series, so the hot water demand is optimised, which is planned to be 5.7 m³/h. The cooled water is driven to the fire-water reservoir in the yard on a 5/4" KPE tube. D. Other activities: — As a service related to professional implementation, project management activities are carried out as an expert service. (English)
Property / summary: A. Project preparation activities: At the time of submission of the project, the building energy annex, the static opinion and the technical description of the planned investment were prepared. The project planned in the framework of the project is not subject to a building permit, so the preparation of a complete permit and construction plan documentation is not relevant. Government Decree No 314/2005 on the environmental impact assessment procedure and the uniform environmental use permit procedure (XII. 25) the preparation of an environmental impact assessment is not relevant in accordance with Government Decree No 25/2004. Activities: B.I. Improving the thermal capabilities of buildings and reducing their heat loss: — Improvement of the thermal insulation of parts of the building: the building needs to be thermally insulated with 15 cm thick polystyrene foam in dryvit system. The surface design of quartz putz is done with thin mortar coating. Increasing the thermal insulation of the attic floor is solved with 20 cm thick rock wool spreading. — Replacement of building envelopes considered as doors and windows separating heated and unheated spaces/upgrading resulting in energy savings: given that the thermal equipment of the building is very weak, all doors (13 windows, 1 entrance door, 1 rear entrance door, 1 balcony door) must be replaced on the house. The windows are replaced with plastic doors and windows which are highly insulated (3 layers of glazing, 5 chambers custom-made and shuttered). B.II. Upgrading of heating, cooling and domestic hot water systems in buildings: — Modernisation of heating and/or domestic hot water systems: the heating upgrade is solved with a water-water heat pump system. This is characterised by a relatively low forward heat flow. This necessitates the design of a better heat take-off surface, which is solved with dimensioned 2 or 3 layers of sheet radiators. Radiators are connected to heat pumps by soldered copper tube fittings 18-28 mm in diameter. In the boiler room is placed the expansion tank, the circulating pump. C. Activities to increase renewable energy use: — Installation of 20 KW solar panel system: the planned 80 panels can be installed in 2 places above the provisory outbuildings. The planned steel structure is 9x7 m and 3x13 m respectively. Steel columns rely on existing space concrete, height 2.5 and 3.5 m. Designed solar panel boards are 270 W Amerisolar type. The associated 3-phase inverter Growatt type. From the inverter to the saldo in the building, MK 25 cable will be installed, partly installed as an air cable. A WIFI module is also installed for the system. — Installation of heat pumps: The head office has a 6 m deep, drilled, high capacity well. Thus, it is possible to develop a water-to-water heat pump heating system. According to the plans, 220 kW SPARK-WW 20 H heat pumps will be installed in the boiler room. Average heat pump data: goodness degree (CP) 4,7, current consumption 2x6,9. The power is 2x6,9 KW for the planned water flow. The heat pumps are connected in series, so the hot water demand is optimised, which is planned to be 5.7 m³/h. The cooled water is driven to the fire-water reservoir in the yard on a 5/4" KPE tube. D. Other activities: — As a service related to professional implementation, project management activities are carried out as an expert service. (English) / rank
 
Normal rank
Property / summary: A. Project preparation activities: At the time of submission of the project, the building energy annex, the static opinion and the technical description of the planned investment were prepared. The project planned in the framework of the project is not subject to a building permit, so the preparation of a complete permit and construction plan documentation is not relevant. Government Decree No 314/2005 on the environmental impact assessment procedure and the uniform environmental use permit procedure (XII. 25) the preparation of an environmental impact assessment is not relevant in accordance with Government Decree No 25/2004. Activities: B.I. Improving the thermal capabilities of buildings and reducing their heat loss: — Improvement of the thermal insulation of parts of the building: the building needs to be thermally insulated with 15 cm thick polystyrene foam in dryvit system. The surface design of quartz putz is done with thin mortar coating. Increasing the thermal insulation of the attic floor is solved with 20 cm thick rock wool spreading. — Replacement of building envelopes considered as doors and windows separating heated and unheated spaces/upgrading resulting in energy savings: given that the thermal equipment of the building is very weak, all doors (13 windows, 1 entrance door, 1 rear entrance door, 1 balcony door) must be replaced on the house. The windows are replaced with plastic doors and windows which are highly insulated (3 layers of glazing, 5 chambers custom-made and shuttered). B.II. Upgrading of heating, cooling and domestic hot water systems in buildings: — Modernisation of heating and/or domestic hot water systems: the heating upgrade is solved with a water-water heat pump system. This is characterised by a relatively low forward heat flow. This necessitates the design of a better heat take-off surface, which is solved with dimensioned 2 or 3 layers of sheet radiators. Radiators are connected to heat pumps by soldered copper tube fittings 18-28 mm in diameter. In the boiler room is placed the expansion tank, the circulating pump. C. Activities to increase renewable energy use: — Installation of 20 KW solar panel system: the planned 80 panels can be installed in 2 places above the provisory outbuildings. The planned steel structure is 9x7 m and 3x13 m respectively. Steel columns rely on existing space concrete, height 2.5 and 3.5 m. Designed solar panel boards are 270 W Amerisolar type. The associated 3-phase inverter Growatt type. From the inverter to the saldo in the building, MK 25 cable will be installed, partly installed as an air cable. A WIFI module is also installed for the system. — Installation of heat pumps: The head office has a 6 m deep, drilled, high capacity well. Thus, it is possible to develop a water-to-water heat pump heating system. According to the plans, 220 kW SPARK-WW 20 H heat pumps will be installed in the boiler room. Average heat pump data: goodness degree (CP) 4,7, current consumption 2x6,9. The power is 2x6,9 KW for the planned water flow. The heat pumps are connected in series, so the hot water demand is optimised, which is planned to be 5.7 m³/h. The cooled water is driven to the fire-water reservoir in the yard on a 5/4" KPE tube. D. Other activities: — As a service related to professional implementation, project management activities are carried out as an expert service. (English) / qualifier
 
point in time: 8 February 2022
Timestamp+2022-02-08T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
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Revision as of 18:13, 8 February 2022

Project Q3925084 in Hungary
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English
Implementation of building energy development at One-Profit Kft.
Project Q3925084 in Hungary

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    30,836,000 forint
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    85,268.02 Euro
    0.00276521 Euro
    3 December 2021
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    168,588.158 Euro
    0.0027336256 Euro
    15 December 2021
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    61,672,000.0 forint
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    50.0 percent
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    10 May 2019
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    10 January 2020
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    One-Profit Kereskedelmi és Szolgáltató Korlátolt Felelősségű Társaság
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    47°13'44.83"N, 16°37'7.54"E
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    A. Projekt-előkészítési tevékenységek: A projekt benyújtásakor elkészítésre került az épületenergetikai melléklet, a statikai szakvélemény és a tervezett beruházás műszaki leírása. A projekt keretében tervezett beruházás nem építési engedély köteles, így teljes engedélyezési és kiviteli tervdokumentáció elkészítése nem releváns. A környezeti hatásvizsgálati és az egységes környezethasználati engedélyezési eljárásról szóló 314/2005. (XII. 25.) Korm. rendeletnek megfelelően környezeti hatásvizsgálat elkészítése nem releváns. Tevékenységek: B.I. Épületek hőtechnikai adottságainak javítása, hőveszteségének csökkentése: - Az épületrészek hőszigetelésének javítása: az épületet szükséges 15 cm vastag polisztirolhab hőszigeteléssel ellátni, dryvit rendszerben. A felület kialakítása kvarc putz vékony habarcs bevonattal történik. A padlásfödém hőszigetelésének növelése 20 cm vastag kőzetgyapot terítéssel kerül megoldásra. - Fűtött és fűtetlen teret elválasztó, nyílászáró szerkezetnek minősülő épülethatároló szerkezetek cseréje / energia-megtakarítást eredményező korszerűsítése: tekintettel, hogy az épület hőtechnikai adottságai nagyon gyengék, a házon az összes nyílászárót (13 db ablak, 1 db bejárati ajtó, 1 db hátsó bejárati ajtó, 1 db erkélyajtó) ki kell cserélni. Az ablakok fokozottan hőszigetelt (3 rétegű üvegezésű, 5 kamrás egyedi gyártású, redőnyös kivitelezésben) műanyag nyílászárókra kerülnek cserélésre. B.II. Épületek fűtési, hűtési és használati melegvíz-rendszereinek korszerűsítése: - Fűtési- és/vagy használati melegvíz-rendszerek korszerűsítése: a fűtéskorszerűsítés víz-víz hőszivattyús rendszerrel kerül megoldásra. Ennek jellemzője a viszonylag alacsony előre menő hőáram. Ez szükségessé teszi a jobb hőleadó felület kialakítását, mely méretezett 2 vagy 3 rétegű lapradiátorokkal kerül megoldásra. A radiátorok 18-28 mm átmérőjű forrasztott rézcsőszereléssel kerülnek összekötésre a hőszivattyúkkal. A kazánházban kerül elhelyezésre a tágulási tartály, a keringető szivattyú. C. Megújuló energiafelhasználás növelését célzó tevékenységek: - 20 KW-os napelemes rendszer telepítése: a tervezett 80 db panel elhelyezésére a provizórikus melléképületek felett, 2 helyen van praktikus lehetőség. A tervezett, lábakon álló acélszerkezet 9x7, ill. 3x13 m-es. Az acél oszlopok a meglévő térbetonra támaszkodnak, magasságuk 2,5 és 3,5 m. A tervezett napelem táblák 270 W-os Amerisolar típusúak. A hozzá tartozó 3 fázisú inverter Growatt típusú. Az invertertől az épületben lévő szaldós óráig MK 25-ös kábel kerül, részben légkábelként beépítésre. A rendszerhez WIFI modul is kiépítésre kerül. - Hőszivattyúk telepítése: A székhely 6 m mély, fúrt, nagykapacitású kúttal rendelkezik. Így adott a lehetőség víz-víz hőszivattyús fűtésrendszer kialakítására. A tervek szerint 2 db 20 kW-os SPARK-WW 20 H típusú magyar gyártású hőszivattyú kerül beépítésre a kazánházban. A hőszivattyúk adatai átlagosan: jósági fok (CP) 4,7, áramfelvétel 2x6,9. A teljesítmény 2x6,9 KW a tervezett vízáramra vonatkoztatva. A hőszivattyúk sorba kerülnek bekötésre, így a melegvíz igény optimalizálódik, mely a tervek szerint 5,7 m3/h. A lehűlt víz 5/4”-os KPE csövön az udvaron meglévő tüzivíz tározóba kerül vezetésre. D. Egyéb tevékenység: - Szakmai megvalósításhoz kapcsolódó szolgáltatásként projektmenedzsment tevékenység kerül megvalósításra, mint igénybevett szakértői szolgáltatás. (Hungarian)
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    A. Project preparation activities: At the time of submission of the project, the building energy annex, the static opinion and the technical description of the planned investment were prepared. The project planned in the framework of the project is not subject to a building permit, so the preparation of a complete permit and construction plan documentation is not relevant. Government Decree No 314/2005 on the environmental impact assessment procedure and the uniform environmental use permit procedure (XII. 25) the preparation of an environmental impact assessment is not relevant in accordance with Government Decree No 25/2004. Activities: B.I. Improving the thermal capabilities of buildings and reducing their heat loss: — Improvement of the thermal insulation of parts of the building: the building needs to be thermally insulated with 15 cm thick polystyrene foam in dryvit system. The surface design of quartz putz is done with thin mortar coating. Increasing the thermal insulation of the attic floor is solved with 20 cm thick rock wool spreading. — Replacement of building envelopes considered as doors and windows separating heated and unheated spaces/upgrading resulting in energy savings: given that the thermal equipment of the building is very weak, all doors (13 windows, 1 entrance door, 1 rear entrance door, 1 balcony door) must be replaced on the house. The windows are replaced with plastic doors and windows which are highly insulated (3 layers of glazing, 5 chambers custom-made and shuttered). B.II. Upgrading of heating, cooling and domestic hot water systems in buildings: — Modernisation of heating and/or domestic hot water systems: the heating upgrade is solved with a water-water heat pump system. This is characterised by a relatively low forward heat flow. This necessitates the design of a better heat take-off surface, which is solved with dimensioned 2 or 3 layers of sheet radiators. Radiators are connected to heat pumps by soldered copper tube fittings 18-28 mm in diameter. In the boiler room is placed the expansion tank, the circulating pump. C. Activities to increase renewable energy use: — Installation of 20 KW solar panel system: the planned 80 panels can be installed in 2 places above the provisory outbuildings. The planned steel structure is 9x7 m and 3x13 m respectively. Steel columns rely on existing space concrete, height 2.5 and 3.5 m. Designed solar panel boards are 270 W Amerisolar type. The associated 3-phase inverter Growatt type. From the inverter to the saldo in the building, MK 25 cable will be installed, partly installed as an air cable. A WIFI module is also installed for the system. — Installation of heat pumps: The head office has a 6 m deep, drilled, high capacity well. Thus, it is possible to develop a water-to-water heat pump heating system. According to the plans, 220 kW SPARK-WW 20 H heat pumps will be installed in the boiler room. Average heat pump data: goodness degree (CP) 4,7, current consumption 2x6,9. The power is 2x6,9 KW for the planned water flow. The heat pumps are connected in series, so the hot water demand is optimised, which is planned to be 5.7 m³/h. The cooled water is driven to the fire-water reservoir in the yard on a 5/4" KPE tube. D. Other activities: — As a service related to professional implementation, project management activities are carried out as an expert service. (English)
    8 February 2022
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    Szombathely, Vas
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    Identifiers

    GINOP-4.1.2-18-2018-00123
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