Building energy development at TH Invest Kft. (Q3934646): Difference between revisions
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In the framework of this project, the company is located at Balmazújváros, Böszörményi út 100 (hrsz.: 3309/6) the energy development of its office building is planned. As part of the project, the following activities will be carried out to improve the building’s thermal capabilities and reduce heat loss (Activity B I): a) The thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces, and b) replacement of building envelopes that are considered as doors and windows separating heated and unheated spaces, upgrading them to achieve energy savings. As part of the project, the retrofitting of the exterior facade of the building will be insulated with a polystyrene thermal insulation material (15 cm Austrotherm AT-H80,) and the attic floor is insulated with glass wool (20 cm URSA). Wooden doors and windows, which are currently not equipped with thermal engineering, will be replaced, INOUTIC Eforte, plastic doors and windows with 6 air chambers, which have 3 layers of thermal insulation glazing. In order to improve energy efficiency, the building’s heating, cooling and domestic hot water systems will also be upgraded (Activity B II). The design of a closed hot water heating system with 2 pipes mounted outside the wall is planned. Heat take-off plate radiators will be equipped with thermostatic valves. The installation of a Viessmann Vitodens 100.26 kW condensation gas boiler is designed with its own 60/100 smoke extraction system. The development shall also include, within activities aimed at increasing the use of renewable energy, the "III. Installation of a solar system for the production of electricity in the grid, exclusively for the supply of electricity to the building concerned by the development and the economic-production processes in it' activity. This solar panel system will be powered by 15.39 kW. As part of the project, the installation of 54 polycrystalline solar panels with a power of 285 Wp (54 * 0.285 kWp = 15.39 kWp) will be procured in conjunction with 1 Fronius SYMO 15.0-3-M phase 3 inverter, the main task of which is to convert the DC power produced by the solar panels into an alternating current of voltage and frequency corresponding to the public utility network, which is then suitable for transmission in the power grid or even for local use. We do not intend to account for any other activity within the framework of the project. The project’s budget has been compiled in a realistic and cost-efficient way in line with market prices. The internal limit contained in the Call, which is relevant to the present project, has been taken into account. The project was properly prepared, the plans were completed, the energy certificates were completed with energetic involvement, the expert statement was completed with the relevant energy data. The negotiations with potential implementing partners have taken place, the energy development planned by us can be carried out at the implementation site of the project. The planned project is not required to build a building permit, however, in relation to the solar system, consultation with the electricity supplier is required. According to the call for proposals, the project management service is not considered as an eligible cost, but an external professional company with more than 15 years of experience in project management has been awarded a contract for the successful performance of this activity. (English) | |||||||||||||||
| Property / summary: In the framework of this project, the company is located at Balmazújváros, Böszörményi út 100 (hrsz.: 3309/6) the energy development of its office building is planned. As part of the project, the following activities will be carried out to improve the building’s thermal capabilities and reduce heat loss (Activity B I): a) The thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces, and b) replacement of building envelopes that are considered as doors and windows separating heated and unheated spaces, upgrading them to achieve energy savings. As part of the project, the retrofitting of the exterior facade of the building will be insulated with a polystyrene thermal insulation material (15 cm Austrotherm AT-H80,) and the attic floor is insulated with glass wool (20 cm URSA). Wooden doors and windows, which are currently not equipped with thermal engineering, will be replaced, INOUTIC Eforte, plastic doors and windows with 6 air chambers, which have 3 layers of thermal insulation glazing. In order to improve energy efficiency, the building’s heating, cooling and domestic hot water systems will also be upgraded (Activity B II). The design of a closed hot water heating system with 2 pipes mounted outside the wall is planned. Heat take-off plate radiators will be equipped with thermostatic valves. The installation of a Viessmann Vitodens 100.26 kW condensation gas boiler is designed with its own 60/100 smoke extraction system. The development shall also include, within activities aimed at increasing the use of renewable energy, the "III. Installation of a solar system for the production of electricity in the grid, exclusively for the supply of electricity to the building concerned by the development and the economic-production processes in it' activity. This solar panel system will be powered by 15.39 kW. As part of the project, the installation of 54 polycrystalline solar panels with a power of 285 Wp (54 * 0.285 kWp = 15.39 kWp) will be procured in conjunction with 1 Fronius SYMO 15.0-3-M phase 3 inverter, the main task of which is to convert the DC power produced by the solar panels into an alternating current of voltage and frequency corresponding to the public utility network, which is then suitable for transmission in the power grid or even for local use. We do not intend to account for any other activity within the framework of the project. The project’s budget has been compiled in a realistic and cost-efficient way in line with market prices. The internal limit contained in the Call, which is relevant to the present project, has been taken into account. The project was properly prepared, the plans were completed, the energy certificates were completed with energetic involvement, the expert statement was completed with the relevant energy data. The negotiations with potential implementing partners have taken place, the energy development planned by us can be carried out at the implementation site of the project. The planned project is not required to build a building permit, however, in relation to the solar system, consultation with the electricity supplier is required. According to the call for proposals, the project management service is not considered as an eligible cost, but an external professional company with more than 15 years of experience in project management has been awarded a contract for the successful performance of this activity. (English) / rank | |||||||||||||||
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| Property / summary: In the framework of this project, the company is located at Balmazújváros, Böszörményi út 100 (hrsz.: 3309/6) the energy development of its office building is planned. As part of the project, the following activities will be carried out to improve the building’s thermal capabilities and reduce heat loss (Activity B I): a) The thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces, and b) replacement of building envelopes that are considered as doors and windows separating heated and unheated spaces, upgrading them to achieve energy savings. As part of the project, the retrofitting of the exterior facade of the building will be insulated with a polystyrene thermal insulation material (15 cm Austrotherm AT-H80,) and the attic floor is insulated with glass wool (20 cm URSA). Wooden doors and windows, which are currently not equipped with thermal engineering, will be replaced, INOUTIC Eforte, plastic doors and windows with 6 air chambers, which have 3 layers of thermal insulation glazing. In order to improve energy efficiency, the building’s heating, cooling and domestic hot water systems will also be upgraded (Activity B II). The design of a closed hot water heating system with 2 pipes mounted outside the wall is planned. Heat take-off plate radiators will be equipped with thermostatic valves. The installation of a Viessmann Vitodens 100.26 kW condensation gas boiler is designed with its own 60/100 smoke extraction system. The development shall also include, within activities aimed at increasing the use of renewable energy, the "III. Installation of a solar system for the production of electricity in the grid, exclusively for the supply of electricity to the building concerned by the development and the economic-production processes in it' activity. This solar panel system will be powered by 15.39 kW. As part of the project, the installation of 54 polycrystalline solar panels with a power of 285 Wp (54 * 0.285 kWp = 15.39 kWp) will be procured in conjunction with 1 Fronius SYMO 15.0-3-M phase 3 inverter, the main task of which is to convert the DC power produced by the solar panels into an alternating current of voltage and frequency corresponding to the public utility network, which is then suitable for transmission in the power grid or even for local use. We do not intend to account for any other activity within the framework of the project. The project’s budget has been compiled in a realistic and cost-efficient way in line with market prices. The internal limit contained in the Call, which is relevant to the present project, has been taken into account. The project was properly prepared, the plans were completed, the energy certificates were completed with energetic involvement, the expert statement was completed with the relevant energy data. The negotiations with potential implementing partners have taken place, the energy development planned by us can be carried out at the implementation site of the project. The planned project is not required to build a building permit, however, in relation to the solar system, consultation with the electricity supplier is required. According to the call for proposals, the project management service is not considered as an eligible cost, but an external professional company with more than 15 years of experience in project management has been awarded a contract for the successful performance of this activity. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:43, 8 February 2022
Project Q3934646 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Building energy development at TH Invest Kft. |
Project Q3934646 in Hungary |
Statements
15,633,594 forint
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28,424,716.364 forint
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54.999996 percent
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1 September 2020
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15 July 2022
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TH Invest Korlátolt Felelősségű Társaság
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47°36'41.87"N, 21°20'37.46"E
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Jelen projekt keretében a vállalkozás Balmazújváros, Böszörményi út 100. szám alatt található (hrsz.: 3309/6) irodaépületének energetikai fejlesztése tervezett. A projekt részeként sor kerül az épület hőtechnikai adottságainak javítását, hőveszteségének csökkentését célzó, alábbi tevékenységekre (B. I. tevékenység): a) Fűtött és fűtetlen teret elválasztó, nem nyílászáró szerkezetnek minősülő épülethatároló szerkezetek hőszigetelése és b) Fűtött és fűtetlen teret elválasztó, nyílászáró szerkezetnek minősülő épülethatároló szerkezetek cseréje, energia-megtakarítást eredményező korszerűsítése. A projekt keretében az épület külső homlokzatának utólagos hőszigetelése tervezett polisztirol hőszigetelő anyaggal (15 cm AUSTROTHERM AT-H80,) valamint a padlásfödém kerül szigetelésre üveggyapottal (20 cm URSA). A jelenleg nem jó hőtechnikai adottságokkal rendelkező fa nyílászárók kicserélésre kerülnek, Inoutic Eforte, 6 légkamrás műanyag nyílászárók kerülnek beépítésre, melyek 3 rétegű hőszigetelő üvegezéssel rendelkeznek. Energiahatékonyság javítása érdekében sor kerül az épület fűtési, hűtési és használati melegvíz-rendszereinek korszerűsítésére is (B. II. tevékenység). Falon kívül szerelt 2 csöves, nyomott rendszerű, zárt melegvizes fűtési rendszer kialakítása tervezett. Hőleadó lapradiátorok termosztatikus szelepekkel lesznek ellátva. Egy Viessmann Vitodens 100, 26 kW-os kondenzációs gázkazán beépítése tervezett, 60/100-as saját füstelvezető rendszerrel kiépítve. A fejlesztés részét képezi továbbá az A) Megújuló energiafelhasználás növelését célzó tevékenységeken belül a „III. Napelemes rendszer telepítése hálózati villamosenergia-termelés céljából, kizárólag a fejlesztésben érintett épület és az abban folyó gazdasági-termelési folyamatok villamosenergia-ellátásához” tevékenység. Ez a napelemes rendszer 15,39 kW-os teljesítményű lesz. A projekt keretében 54 db 285 Wp teljesítményű polikristályos napelem felhelyezése tervezett (54 * 0,285 kWp = 15,39 kWp), ezekhez kapcsolódóan 1 db Fronius Symo 15.0-3-M 3 fázisú inverter kerül beszerzésre, melyeknek fő feladata hogy a napelemek által előállított egyenáramot a közüzemi hálózatnak megfelelő feszültségű és frekvenciájú váltakozó árammá alakítsa át, amely ezt követően alkalmas az elektromos hálózatban történő továbbításra vagy akár helyi felhasználásra is. Egyéb tevékenységet nem kívánunk elszámolni a projekt keretein belül. A projekt költségvetése a piaci árakhoz igazodóan, reális és takarékos módon lett összeállítva. A Felhívásban található – jelen projekt szempontjából releváns - belső korlát figyelembe lett véve. A projekt megfelelően előkészített, a tervek elkészültek, energetikus bevonásával elkészültek az energetikai tanúsítványok, a szakértői nyilatkozat a releváns energetikai adatokkal kitöltésre került. Lehetséges kivitelező partnerekkel az egyeztetések megtörténtek, az általunk tervezett energetikai fejlesztés a projekt megvalósítási helyszínén kivitelezhető. A tervezett projekt nem építési engedély köteles, ugyanakkor a napelemes rendszer kapcsán az áramszolgáltatóval egyeztetés szükséges. A pályázati felhívás alapján a projektmenedzsmenti szolgáltatás nem számít elszámolható költségnek, ugyanakkor külső, több mint 15 éves projektmenedzsmenti tapasztalattal rendelkező szakcéggel megbízási szerződés került megkötésre e tevékenység sikeres ellátására. (Hungarian)
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In the framework of this project, the company is located at Balmazújváros, Böszörményi út 100 (hrsz.: 3309/6) the energy development of its office building is planned. As part of the project, the following activities will be carried out to improve the building’s thermal capabilities and reduce heat loss (Activity B I): a) The thermal insulation of building envelopes other than doors and windows separating heated and unheated spaces, and b) replacement of building envelopes that are considered as doors and windows separating heated and unheated spaces, upgrading them to achieve energy savings. As part of the project, the retrofitting of the exterior facade of the building will be insulated with a polystyrene thermal insulation material (15 cm Austrotherm AT-H80,) and the attic floor is insulated with glass wool (20 cm URSA). Wooden doors and windows, which are currently not equipped with thermal engineering, will be replaced, INOUTIC Eforte, plastic doors and windows with 6 air chambers, which have 3 layers of thermal insulation glazing. In order to improve energy efficiency, the building’s heating, cooling and domestic hot water systems will also be upgraded (Activity B II). The design of a closed hot water heating system with 2 pipes mounted outside the wall is planned. Heat take-off plate radiators will be equipped with thermostatic valves. The installation of a Viessmann Vitodens 100.26 kW condensation gas boiler is designed with its own 60/100 smoke extraction system. The development shall also include, within activities aimed at increasing the use of renewable energy, the "III. Installation of a solar system for the production of electricity in the grid, exclusively for the supply of electricity to the building concerned by the development and the economic-production processes in it' activity. This solar panel system will be powered by 15.39 kW. As part of the project, the installation of 54 polycrystalline solar panels with a power of 285 Wp (54 * 0.285 kWp = 15.39 kWp) will be procured in conjunction with 1 Fronius SYMO 15.0-3-M phase 3 inverter, the main task of which is to convert the DC power produced by the solar panels into an alternating current of voltage and frequency corresponding to the public utility network, which is then suitable for transmission in the power grid or even for local use. We do not intend to account for any other activity within the framework of the project. The project’s budget has been compiled in a realistic and cost-efficient way in line with market prices. The internal limit contained in the Call, which is relevant to the present project, has been taken into account. The project was properly prepared, the plans were completed, the energy certificates were completed with energetic involvement, the expert statement was completed with the relevant energy data. The negotiations with potential implementing partners have taken place, the energy development planned by us can be carried out at the implementation site of the project. The planned project is not required to build a building permit, however, in relation to the solar system, consultation with the electricity supplier is required. According to the call for proposals, the project management service is not considered as an eligible cost, but an external professional company with more than 15 years of experience in project management has been awarded a contract for the successful performance of this activity. (English)
8 February 2022
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Balmazújváros, Hajdú-Bihar
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Identifiers
GINOP-4.1.4-19-2020-01411
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