Energy modernisation of office buildings (Q3924933): Difference between revisions
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The applicant intends to install new, modern plastic doors and windows on the existing, outdated wood and plastic doors and windows of the building concerned by the development. As part of the development, a total of 14 insulated, high-air-tight, six-chamber single-wing windows are installed. The windows are installed with 3 layers of thermal insulation glazing. During the development, 3 insulated, air-tight, five-chamber entrance doors are installed. As part of the development, insulation of the facade, plinth and attic slab of the building will be carried out. The existing attic floor has an air layer of 15 cm between 2 layers of boards and 6 cm of mud adhesion above it. This layer order will be further developed as part of the development, in which a heat-reflecting film of 0.1 cm permeable humidity is placed on the mud layer, with an overlap of 15 cm. A 25 cm glass wool insulating sheet is placed on the foil. The building’s plinth is placed on a 16.85 m² surface of 12 cm XPS closed cell extruded plinth polystyrene, while the facade of the existing 45 cm solid burnt clay brick is placed on a 15 cm EPS facade thermal insulation plate on a 356.39 m² surface. The plinth is coated with 2 mm resin binding plaster and the facade is covered with 2 mm rubbed silicate plaster. As part of the heating upgrade, 2 condensation gas boilers with a nominal capacity of 26 kW are installed to ensure efficient heat generation of the building. Efficient heat release in the building is provided by underfloor heating from crosslinked polyethylene pipes and flat radiators. In order to ensure the proper control of the floor heating, 2 divider collectors are installed, while the control of the lap radiators is ensured by thermostatic valve heads. In the course of its activity, the applicant intends to provide the demand for electricity to the property affected by the development from renewable energy, in order to install a solar system using solar energy. In the framework of the tender, a 7 kW solar grid-connected solar system will be installed on the roof. The existing roof structure is statically suitable for the installation of the planned solar system. The annual electricity generated by the planned solar system does not exceed the amount of electricity consumed by the office, i.e. no sale takes place. (English) | |||||||||||||||
| Property / summary: The applicant intends to install new, modern plastic doors and windows on the existing, outdated wood and plastic doors and windows of the building concerned by the development. As part of the development, a total of 14 insulated, high-air-tight, six-chamber single-wing windows are installed. The windows are installed with 3 layers of thermal insulation glazing. During the development, 3 insulated, air-tight, five-chamber entrance doors are installed. As part of the development, insulation of the facade, plinth and attic slab of the building will be carried out. The existing attic floor has an air layer of 15 cm between 2 layers of boards and 6 cm of mud adhesion above it. This layer order will be further developed as part of the development, in which a heat-reflecting film of 0.1 cm permeable humidity is placed on the mud layer, with an overlap of 15 cm. A 25 cm glass wool insulating sheet is placed on the foil. The building’s plinth is placed on a 16.85 m² surface of 12 cm XPS closed cell extruded plinth polystyrene, while the facade of the existing 45 cm solid burnt clay brick is placed on a 15 cm EPS facade thermal insulation plate on a 356.39 m² surface. The plinth is coated with 2 mm resin binding plaster and the facade is covered with 2 mm rubbed silicate plaster. As part of the heating upgrade, 2 condensation gas boilers with a nominal capacity of 26 kW are installed to ensure efficient heat generation of the building. Efficient heat release in the building is provided by underfloor heating from crosslinked polyethylene pipes and flat radiators. In order to ensure the proper control of the floor heating, 2 divider collectors are installed, while the control of the lap radiators is ensured by thermostatic valve heads. In the course of its activity, the applicant intends to provide the demand for electricity to the property affected by the development from renewable energy, in order to install a solar system using solar energy. In the framework of the tender, a 7 kW solar grid-connected solar system will be installed on the roof. The existing roof structure is statically suitable for the installation of the planned solar system. The annual electricity generated by the planned solar system does not exceed the amount of electricity consumed by the office, i.e. no sale takes place. (English) / rank | |||||||||||||||
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| Property / summary: The applicant intends to install new, modern plastic doors and windows on the existing, outdated wood and plastic doors and windows of the building concerned by the development. As part of the development, a total of 14 insulated, high-air-tight, six-chamber single-wing windows are installed. The windows are installed with 3 layers of thermal insulation glazing. During the development, 3 insulated, air-tight, five-chamber entrance doors are installed. As part of the development, insulation of the facade, plinth and attic slab of the building will be carried out. The existing attic floor has an air layer of 15 cm between 2 layers of boards and 6 cm of mud adhesion above it. This layer order will be further developed as part of the development, in which a heat-reflecting film of 0.1 cm permeable humidity is placed on the mud layer, with an overlap of 15 cm. A 25 cm glass wool insulating sheet is placed on the foil. The building’s plinth is placed on a 16.85 m² surface of 12 cm XPS closed cell extruded plinth polystyrene, while the facade of the existing 45 cm solid burnt clay brick is placed on a 15 cm EPS facade thermal insulation plate on a 356.39 m² surface. The plinth is coated with 2 mm resin binding plaster and the facade is covered with 2 mm rubbed silicate plaster. As part of the heating upgrade, 2 condensation gas boilers with a nominal capacity of 26 kW are installed to ensure efficient heat generation of the building. Efficient heat release in the building is provided by underfloor heating from crosslinked polyethylene pipes and flat radiators. In order to ensure the proper control of the floor heating, 2 divider collectors are installed, while the control of the lap radiators is ensured by thermostatic valve heads. In the course of its activity, the applicant intends to provide the demand for electricity to the property affected by the development from renewable energy, in order to install a solar system using solar energy. In the framework of the tender, a 7 kW solar grid-connected solar system will be installed on the roof. The existing roof structure is statically suitable for the installation of the planned solar system. The annual electricity generated by the planned solar system does not exceed the amount of electricity consumed by the office, i.e. no sale takes place. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 18:11, 8 February 2022
Project Q3924933 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Energy modernisation of office buildings |
Project Q3924933 in Hungary |
Statements
24,043,000 forint
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146,132.516 Euro
0.0027336256 Euro
15 December 2021
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53,457,399.502 forint
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44.975864 percent
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10 October 2018
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30 September 2019
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EVISION 2002 Építőipari Beruházó Korlátolt Felelősségű Társaság
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46°21'23.29"N, 17°47'19.28"E
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A pályázó a fejlesztéssel érintett épület meglévő, korszerűtlen fa és műanyag nyílászárói helyére új, korszerű műanyag nyílászárókat kíván beépíteni. A fejlesztés keretében összesen 14 db hőszigetelt, fokozott légzárású, hatkamrás egyszárnyú bukó-nyíló ablak kerül beépítésre. Az ablakok 3 rétegű hőszigetelő üvegezéssel kerülnek beépítésre. A fejlesztés során 3 db hőszigetelt, fokozott légzárású, ötkamrás bejárati ajtó is beépítésre kerül. A fejlesztés keretében sor kerül az épület homlokzatának, lábazatának és padlásfödémjének szigetelésére is. A meglévő padlásfödém 2 deszkaréteg közötti 15 cm légréteggel, valamint az felett 6 cm sártapasztással bír. Ezen rétegrend kerül a fejlesztés keretében tovább fejlesztésre, melynek keretében a sárrétegre 0,1 cm-es páraáteresztő, hővisszaverő fólia kerül terítésre, 15 cm-es átfedéssel. A fóliára pedig 25 cm-es üveggyapot hőszigetelő lemez kerül elhelyezésre. Az épület lábazatára 16,85 m2 felületen 12 cm-es XPS zártcellás extrudált lábazati polisztirol kerül elhelyezésre, míg a meglévő 45 cm-es tömör égetett agyagtéglából lévő homlokzatra 15 cm-es EPS homlokzati hőszigetelő lemez kerül felhelyezésre 356,39 m2 felületen. A lábazat 2 mm műgyantás kötőanyagú vakolattal, a homlokzat pedig 2 mm dörzsölt szilikát vakolattal kerül bevonásra. A fűtéskorszerűsítés keretében 2 db 26 kW-os névleges teljesítményű, kondenzációs gázkazán kerül beépítésre, melyek az épület hatékony hőtermelését hivatottak biztosítani. Az épületben a hatékony hőleadást egyrészt térhálósított polietilén csőből kiépített padlófűtés, másrészt pedig lapradiátorok biztosítják. A padlófűtés megfelelő szabályozhatóságának biztosítása érdekében 2 db osztó-gyűjtő kerül beépítésre, míg a lapradiátorok szabályozását termosztatikus szelepfejek biztosítják. A pályázó a tevékenysége során a fejlesztéssel érintett ingatlanba felmerülő villamos energia igényt megújuló energiából kívánja biztosítani, melynek érdekében napenergiát hasznosító napelemes rendszert kíván telepíteni. A pályázat keretében egy 7 kW-os teljesítményű, villamos hálózatra kapcsolódó napelemes rendszer kerül a tetőre telepítésre. A meglévő tetőszerkezet statikailag alkalmas a tervezett napelemes rendszer telepítésére. A tervezett napelemes rendszer által éves szinten termelt villamos energia nem haladja meg az iroda által elhasznált villamos energia mennyiségét, azaz nem kerül sor értékesítésre. (Hungarian)
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The applicant intends to install new, modern plastic doors and windows on the existing, outdated wood and plastic doors and windows of the building concerned by the development. As part of the development, a total of 14 insulated, high-air-tight, six-chamber single-wing windows are installed. The windows are installed with 3 layers of thermal insulation glazing. During the development, 3 insulated, air-tight, five-chamber entrance doors are installed. As part of the development, insulation of the facade, plinth and attic slab of the building will be carried out. The existing attic floor has an air layer of 15 cm between 2 layers of boards and 6 cm of mud adhesion above it. This layer order will be further developed as part of the development, in which a heat-reflecting film of 0.1 cm permeable humidity is placed on the mud layer, with an overlap of 15 cm. A 25 cm glass wool insulating sheet is placed on the foil. The building’s plinth is placed on a 16.85 m² surface of 12 cm XPS closed cell extruded plinth polystyrene, while the facade of the existing 45 cm solid burnt clay brick is placed on a 15 cm EPS facade thermal insulation plate on a 356.39 m² surface. The plinth is coated with 2 mm resin binding plaster and the facade is covered with 2 mm rubbed silicate plaster. As part of the heating upgrade, 2 condensation gas boilers with a nominal capacity of 26 kW are installed to ensure efficient heat generation of the building. Efficient heat release in the building is provided by underfloor heating from crosslinked polyethylene pipes and flat radiators. In order to ensure the proper control of the floor heating, 2 divider collectors are installed, while the control of the lap radiators is ensured by thermostatic valve heads. In the course of its activity, the applicant intends to provide the demand for electricity to the property affected by the development from renewable energy, in order to install a solar system using solar energy. In the framework of the tender, a 7 kW solar grid-connected solar system will be installed on the roof. The existing roof structure is statically suitable for the installation of the planned solar system. The annual electricity generated by the planned solar system does not exceed the amount of electricity consumed by the office, i.e. no sale takes place. (English)
8 February 2022
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Kaposvár, Somogy
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Identifiers
GINOP-4.1.1-8-4-4-16-2017-00127
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