Building energy development with the use of renewable energy at Dominó Kft. (Q3925099): Difference between revisions

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Property / summary
 
The development covers the following sub-areas: External thermal insulation: Outer masonry: Repair the plastering defects on the facade surface and after plastering it onto the plane the thermal insulation system consisting of polystyrene sheets is attached to the existing façade in a thickness of 12 cm (Baumit Grafit), encapsulation of glass text netting, noble blinding, installation of the necessary starter and corner profiles. Interior slab: The inner boundary slabs are equipped with fibrous insulation above the existing 5 cm ISOVER DOMO 15 cm thickness. A technological vapor barrier insulating film must be placed under the insulation for the preservation of consistency. Replacement of doors and windows: The building’s windows need to be changed. In the case of windows, it is recommended to install a new structure with a high insulated wood profile with 3 layers of glazing and hot flange spacer (U=min. 1.15 W/m2K). The doors are also replaced with wooden doors in modern material (U=min.1,15 w/m2K). The windows are mounted from the outside to light-coloured plastic shutters, fixed to a pre-arranged detachment. Heating modernisation, installation of heat pump system: Based on the building’s thermal engineering calculations, the heating and cooling requirements of the building’s rooms can be ensured by a low-temperature system. Based on the conditions of the plot and the volume of the project, the most optimal solution from the heat producer side is the use of air-water heat pumps, for which fan-coil equipment has been designed for low-temperature medium temperature. DAIKIN FWF040BT cassette fan-coils have been designed in the designated areas. The cooling and heating energy demand of the building is solved by central engineering. Modernisation of lighting: The new applied lighting equipment is LED light sources, designed according to Mainlux MXTP-01-40 W 40 W IP65 Protected Industrial LED luminaire 4 000 lm, lighting sizing. Solar system: 61 panels are placed on the roof of the building covered with bituminous plates. 60 cell polycrystalline modules with aluminium frame, 3.2 mm iron-free hardened solar glass, EVA filling, IP65 connector box, solar wire, solar connectors. They shall have a rated power of at least 275 W, a maximum of 300 W and an efficiency of at least 15.9 %. Designed panel: CanadianSolar CS6k-280P 280 W. Inverters: Three-phase 400/3x230V inverters operating in synchronous operation with a 50 Hz network. 15 kVA total power inverter: 1pc FRONIUS SYMO 15.0-3-M. Solar collector system: Installation of an 8.4 m² solar collector system. New solar collectors are placed on the roof of the building, consisting of: 4pcs BOSCH FCC 220-2V Solar 4000 TF (4.2 m²), niversal insert set assembly frame, connecting battery set for steel tube mounting frames, solar assembly unit, 25 liter expansion tank, HC-1 regulator, spring safety valve 3/4", 20 liter antifreeze transfer fluid concentrate. Solar collectors work on the 500 litre combined HMV storage in the boiler room. The new HMV storage is connected to the existing hot water system, without conversion. (English)
Property / summary: The development covers the following sub-areas: External thermal insulation: Outer masonry: Repair the plastering defects on the facade surface and after plastering it onto the plane the thermal insulation system consisting of polystyrene sheets is attached to the existing façade in a thickness of 12 cm (Baumit Grafit), encapsulation of glass text netting, noble blinding, installation of the necessary starter and corner profiles. Interior slab: The inner boundary slabs are equipped with fibrous insulation above the existing 5 cm ISOVER DOMO 15 cm thickness. A technological vapor barrier insulating film must be placed under the insulation for the preservation of consistency. Replacement of doors and windows: The building’s windows need to be changed. In the case of windows, it is recommended to install a new structure with a high insulated wood profile with 3 layers of glazing and hot flange spacer (U=min. 1.15 W/m2K). The doors are also replaced with wooden doors in modern material (U=min.1,15 w/m2K). The windows are mounted from the outside to light-coloured plastic shutters, fixed to a pre-arranged detachment. Heating modernisation, installation of heat pump system: Based on the building’s thermal engineering calculations, the heating and cooling requirements of the building’s rooms can be ensured by a low-temperature system. Based on the conditions of the plot and the volume of the project, the most optimal solution from the heat producer side is the use of air-water heat pumps, for which fan-coil equipment has been designed for low-temperature medium temperature. DAIKIN FWF040BT cassette fan-coils have been designed in the designated areas. The cooling and heating energy demand of the building is solved by central engineering. Modernisation of lighting: The new applied lighting equipment is LED light sources, designed according to Mainlux MXTP-01-40 W 40 W IP65 Protected Industrial LED luminaire 4 000 lm, lighting sizing. Solar system: 61 panels are placed on the roof of the building covered with bituminous plates. 60 cell polycrystalline modules with aluminium frame, 3.2 mm iron-free hardened solar glass, EVA filling, IP65 connector box, solar wire, solar connectors. They shall have a rated power of at least 275 W, a maximum of 300 W and an efficiency of at least 15.9 %. Designed panel: CanadianSolar CS6k-280P 280 W. Inverters: Three-phase 400/3x230V inverters operating in synchronous operation with a 50 Hz network. 15 kVA total power inverter: 1pc FRONIUS SYMO 15.0-3-M. Solar collector system: Installation of an 8.4 m² solar collector system. New solar collectors are placed on the roof of the building, consisting of: 4pcs BOSCH FCC 220-2V Solar 4000 TF (4.2 m²), niversal insert set assembly frame, connecting battery set for steel tube mounting frames, solar assembly unit, 25 liter expansion tank, HC-1 regulator, spring safety valve 3/4", 20 liter antifreeze transfer fluid concentrate. Solar collectors work on the 500 litre combined HMV storage in the boiler room. The new HMV storage is connected to the existing hot water system, without conversion. (English) / rank
 
Normal rank
Property / summary: The development covers the following sub-areas: External thermal insulation: Outer masonry: Repair the plastering defects on the facade surface and after plastering it onto the plane the thermal insulation system consisting of polystyrene sheets is attached to the existing façade in a thickness of 12 cm (Baumit Grafit), encapsulation of glass text netting, noble blinding, installation of the necessary starter and corner profiles. Interior slab: The inner boundary slabs are equipped with fibrous insulation above the existing 5 cm ISOVER DOMO 15 cm thickness. A technological vapor barrier insulating film must be placed under the insulation for the preservation of consistency. Replacement of doors and windows: The building’s windows need to be changed. In the case of windows, it is recommended to install a new structure with a high insulated wood profile with 3 layers of glazing and hot flange spacer (U=min. 1.15 W/m2K). The doors are also replaced with wooden doors in modern material (U=min.1,15 w/m2K). The windows are mounted from the outside to light-coloured plastic shutters, fixed to a pre-arranged detachment. Heating modernisation, installation of heat pump system: Based on the building’s thermal engineering calculations, the heating and cooling requirements of the building’s rooms can be ensured by a low-temperature system. Based on the conditions of the plot and the volume of the project, the most optimal solution from the heat producer side is the use of air-water heat pumps, for which fan-coil equipment has been designed for low-temperature medium temperature. DAIKIN FWF040BT cassette fan-coils have been designed in the designated areas. The cooling and heating energy demand of the building is solved by central engineering. Modernisation of lighting: The new applied lighting equipment is LED light sources, designed according to Mainlux MXTP-01-40 W 40 W IP65 Protected Industrial LED luminaire 4 000 lm, lighting sizing. Solar system: 61 panels are placed on the roof of the building covered with bituminous plates. 60 cell polycrystalline modules with aluminium frame, 3.2 mm iron-free hardened solar glass, EVA filling, IP65 connector box, solar wire, solar connectors. They shall have a rated power of at least 275 W, a maximum of 300 W and an efficiency of at least 15.9 %. Designed panel: CanadianSolar CS6k-280P 280 W. Inverters: Three-phase 400/3x230V inverters operating in synchronous operation with a 50 Hz network. 15 kVA total power inverter: 1pc FRONIUS SYMO 15.0-3-M. Solar collector system: Installation of an 8.4 m² solar collector system. New solar collectors are placed on the roof of the building, consisting of: 4pcs BOSCH FCC 220-2V Solar 4000 TF (4.2 m²), niversal insert set assembly frame, connecting battery set for steel tube mounting frames, solar assembly unit, 25 liter expansion tank, HC-1 regulator, spring safety valve 3/4", 20 liter antifreeze transfer fluid concentrate. Solar collectors work on the 500 litre combined HMV storage in the boiler room. The new HMV storage is connected to the existing hot water system, without conversion. (English) / qualifier
 
point in time: 8 February 2022
Timestamp+2022-02-08T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 18:09, 8 February 2022

Project Q3925099 in Hungary
Language Label Description Also known as
English
Building energy development with the use of renewable energy at Dominó Kft.
Project Q3925099 in Hungary

    Statements

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    49,570,030 forint
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    137,071.54 Euro
    0.00276521 Euro
    3 December 2021
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    271,011.806 Euro
    0.0027336256 Euro
    15 December 2021
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    99,140,060.0 forint
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    50.0 percent
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    10 December 2018
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    20 May 2020
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    DOMINÓ Épitőanyagkereskedő és Szolgáltató Korlátolt Felelősségü Társaság
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    46°42'4.97"N, 17°21'58.14"E
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    A fejlesztés a következő részterületekre terjed ki: Külső hőszigetelés: Külső falazat: A homlokzati felületen található vakolati hibák javítása, majd síkra vakolása után Polisztirol lapokból álló hőszigetelő rendszer felragasztása a meglevő homlokzatra 12cm vastagságban (Baumit Grafit), dűbelezéssel, üvegszöveg háló beágyazásával, nemesvakolat felületképzéssel, a szükséges indító és sarokprofilok elhelyezésével. Belső födém: A belső határoló födémekre a meglévő 5cm fölé szálas szigetelés kerül ISOVER DOMO 15cm vastagságban. A szigetelés alá technológiai párazáró szigetelő fólia kell, hogy kerüljön az állagmegóvás érdekében. Nyílászárók cseréje: Az épület ablakai cserére szorulnak. Az ablakok esetében új fokozottan hőszigetelt fa profilú 3 rétegű üvegezéssel és melegperemes távtartóval szerelt szerkezet beépítése javasolt (U=min. 1,15 W/m2K). Az ajtók cseréje szintén korszerű anyagában fa nyílászárókra történik (U=min.1,15 w/m2K). Az ablakokra külső oldalról világos színű műanyag redőny felszerelésre történik, előre kialakított toktoldóra rögzítve. Fűtéskorszerűsítés, hőszivattyús rendszer kiépítése: Az épület hőtechnikai számításai alapján az épület helyiségeinek fűtési-hűtési igényei alacsony hőmérsékletű rendszerrel biztosítható. A telek adottságai és a projekt volumene alapján a legoptimálisabb megoldás hőtermelői oldalról levegő-víz hőszivattyú alkalmazása, melyhez fan-coil berendezések lettek betervezve alacsony hőmérsékletű közeghőmérsékletre méretezve. A kijelölt helységekbe DAIKIN FWF040BT típusú kazettás fan-coilok kerültek betervezésre. Az épület hűtési-fűtési energiaigényét központi gépészettel oldjuk meg. Világításkorszerűsítés: Az új alkalmazott világítási berendezések LED fényforrások, terv szerint Mainlux MXTP-01-40W 40W teljesítményű IP65 védett Ipari LED lámpatest 4000lm, megvilágítási méretezés szerint. Napelemes rendszer: Az épület bitumenes lemezzel borított tetejére 61 db, panel kerül elhelyezésre. 60 cellás, polikristályos modulok alu keretben, 3,2 mm vasmentes edzett szolárüveggel, EVA kitöltéssel, IP65-ös csatlakozó dobozzal, szolár vezetékkel, szolár csatlakozókkal. Névleges teljesítményük minimum 275 W, maximum 300 W lehet, hatásfokuk pedig legalább 15,9% kell legyen. Tervezett panel: CanadianSolar CS6k-280P 280W. Inverterek: Háromfázisú 400/3x230V, 50Hz hálózattal szinkron üzemben működő inverterek. 15 kVA csatlakozási összteljesítményű inverter: 1db FRONIUS SYMO 15.0-3-M. Napkollektoros rendszer: 8,4m2 felületű napkollektoros rendszer telepítése. Az épület tetejére új napkollektorok kerülnek, melyek elemei: 4db BOSCH FCC 220-2V Solar 4000 TF (4,2m2), niverzális bekötő készlet szerelőkeret, Összekötő elemkészlet acélcsöves szerelőkeretekhez , szoláris szerelési egység, 25 literes tágulási tartály, HC-1 szabályozó, Rugós biztonsági szelep 3/4”, 20 liter fagyálló hőátadó folyadék koncentrátum. A napkollektorok a kazánházban elhelyezett 500 literes kombinált HMV tárolóra dolgoznak rá. Az új HMV tároló a meglévő melegvíz rendszerre csatlakozik, átalakítás nélkül. (Hungarian)
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    The development covers the following sub-areas: External thermal insulation: Outer masonry: Repair the plastering defects on the facade surface and after plastering it onto the plane the thermal insulation system consisting of polystyrene sheets is attached to the existing façade in a thickness of 12 cm (Baumit Grafit), encapsulation of glass text netting, noble blinding, installation of the necessary starter and corner profiles. Interior slab: The inner boundary slabs are equipped with fibrous insulation above the existing 5 cm ISOVER DOMO 15 cm thickness. A technological vapor barrier insulating film must be placed under the insulation for the preservation of consistency. Replacement of doors and windows: The building’s windows need to be changed. In the case of windows, it is recommended to install a new structure with a high insulated wood profile with 3 layers of glazing and hot flange spacer (U=min. 1.15 W/m2K). The doors are also replaced with wooden doors in modern material (U=min.1,15 w/m2K). The windows are mounted from the outside to light-coloured plastic shutters, fixed to a pre-arranged detachment. Heating modernisation, installation of heat pump system: Based on the building’s thermal engineering calculations, the heating and cooling requirements of the building’s rooms can be ensured by a low-temperature system. Based on the conditions of the plot and the volume of the project, the most optimal solution from the heat producer side is the use of air-water heat pumps, for which fan-coil equipment has been designed for low-temperature medium temperature. DAIKIN FWF040BT cassette fan-coils have been designed in the designated areas. The cooling and heating energy demand of the building is solved by central engineering. Modernisation of lighting: The new applied lighting equipment is LED light sources, designed according to Mainlux MXTP-01-40 W 40 W IP65 Protected Industrial LED luminaire 4 000 lm, lighting sizing. Solar system: 61 panels are placed on the roof of the building covered with bituminous plates. 60 cell polycrystalline modules with aluminium frame, 3.2 mm iron-free hardened solar glass, EVA filling, IP65 connector box, solar wire, solar connectors. They shall have a rated power of at least 275 W, a maximum of 300 W and an efficiency of at least 15.9 %. Designed panel: CanadianSolar CS6k-280P 280 W. Inverters: Three-phase 400/3x230V inverters operating in synchronous operation with a 50 Hz network. 15 kVA total power inverter: 1pc FRONIUS SYMO 15.0-3-M. Solar collector system: Installation of an 8.4 m² solar collector system. New solar collectors are placed on the roof of the building, consisting of: 4pcs BOSCH FCC 220-2V Solar 4000 TF (4.2 m²), niversal insert set assembly frame, connecting battery set for steel tube mounting frames, solar assembly unit, 25 liter expansion tank, HC-1 regulator, spring safety valve 3/4", 20 liter antifreeze transfer fluid concentrate. Solar collectors work on the 500 litre combined HMV storage in the boiler room. The new HMV storage is connected to the existing hot water system, without conversion. (English)
    8 February 2022
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    Balatonkeresztúr, Somogy
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    Identifiers

    GINOP-4.1.2-18-2018-00153
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