Building the solar system of Gyula Nyírő Hospital (Q3943837): Difference between revisions
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During the project, the solar panel system of the Nyírő Gyula Hospital headquarters building (1135 Budapest, Lehel utca 59-61) will be built. Technical content: A total of 1152 tables of solar panels are installed on the roof of the building, with a total output of 299,52kWp. Solar panels are of the Hisunage HSG260-60P type, characterised by high efficiency and long-term reliability, both in quality and in performance. The performance of each panel is 260 W. The solar panels are south-facing. The electricity generated by these panels is 356.000 kWh per year. The DC power generated by the panels is converted by 6pcs Kaco 60.0 TL3 inverter into AC current corresponding to the mains voltage, which is suitable for the energy consumption of household customers. The panels are fixed with an aluminum rail, which ensures a long and durable service life. On flat roofed roof surfaces the positioning of the panels is carried out with bets, on which the fastening rails and the panels are positioned accurately. The feed is carried out through a meter to be placed in the electrical cabinet in the mains. The electricity collected by the solar panels is extracted in an insulating tube using a five-meter cable to the inverters placed next to the measuring cabinet, which are connected to the meter. During the installation of the solar panel system, persons working on the roof can perform the activity in shoes with non-slip soles, with an obligation to fasten and wear a safety helmet. In the case of solar panel systems, an overvoltage protector on both sides of the inverter shall be installed to protect the equipment from overvoltage and near lightning strikes. Connecting and connecting the metal structure holding the panels to the grounding terminal of the inverter ensures the ground potential of the system through the EPH junction of the building. By implementing their project, we contribute to increasing the amount of energy from renewable sources by reducing the use of fossil fuels, thereby contributing to the reduction of primary energy consumption and greenhouse gas emissions. Activities under the project: Of the activities eligible for self-sufficiency: II. Development of a grid-connected solar system with a connection capacity of 50-500 kVA for the purpose of meeting its own electricity demand directly or partially. Eligible investment elements: Solar panels, supporting devices, racks, elements needed to connect to a local system or to the grid (e.g. inverter) and the costs of their installation, purchase and installation of separate metering and control equipment, purchase and installation of a meter recording monthly electricity consumption data. Only the electricity generation side (in the case of a solar system up to the AC-side connection device) is eligible for self-eligible activities: — Project preparation — Relevant tasks: project management, engineering tasks, mandatory publicity We comply with environmental and equal opportunities legislation applicable to the project. In the area affected by the project, the protected natural and cultural values are preserved, and the environmental damage and non-compliance that is contrary to the law from the point of view of equal opportunities will be eliminated at the latest during the implementation of the project. In public events, communication and behaviour related to development, we express a sense of opportunity, do not mediate segregation, reduce existing prejudices with regard to groups. We have an Equal Opportunities Plan, which we have attached as part of our application for support. The ownership conditions of the property concerned by the development are in accordance with point 7 of the GTC. (English) | |||||||||||||||
Property / summary: During the project, the solar panel system of the Nyírő Gyula Hospital headquarters building (1135 Budapest, Lehel utca 59-61) will be built. Technical content: A total of 1152 tables of solar panels are installed on the roof of the building, with a total output of 299,52kWp. Solar panels are of the Hisunage HSG260-60P type, characterised by high efficiency and long-term reliability, both in quality and in performance. The performance of each panel is 260 W. The solar panels are south-facing. The electricity generated by these panels is 356.000 kWh per year. The DC power generated by the panels is converted by 6pcs Kaco 60.0 TL3 inverter into AC current corresponding to the mains voltage, which is suitable for the energy consumption of household customers. The panels are fixed with an aluminum rail, which ensures a long and durable service life. On flat roofed roof surfaces the positioning of the panels is carried out with bets, on which the fastening rails and the panels are positioned accurately. The feed is carried out through a meter to be placed in the electrical cabinet in the mains. The electricity collected by the solar panels is extracted in an insulating tube using a five-meter cable to the inverters placed next to the measuring cabinet, which are connected to the meter. During the installation of the solar panel system, persons working on the roof can perform the activity in shoes with non-slip soles, with an obligation to fasten and wear a safety helmet. In the case of solar panel systems, an overvoltage protector on both sides of the inverter shall be installed to protect the equipment from overvoltage and near lightning strikes. Connecting and connecting the metal structure holding the panels to the grounding terminal of the inverter ensures the ground potential of the system through the EPH junction of the building. By implementing their project, we contribute to increasing the amount of energy from renewable sources by reducing the use of fossil fuels, thereby contributing to the reduction of primary energy consumption and greenhouse gas emissions. Activities under the project: Of the activities eligible for self-sufficiency: II. Development of a grid-connected solar system with a connection capacity of 50-500 kVA for the purpose of meeting its own electricity demand directly or partially. Eligible investment elements: Solar panels, supporting devices, racks, elements needed to connect to a local system or to the grid (e.g. inverter) and the costs of their installation, purchase and installation of separate metering and control equipment, purchase and installation of a meter recording monthly electricity consumption data. Only the electricity generation side (in the case of a solar system up to the AC-side connection device) is eligible for self-eligible activities: — Project preparation — Relevant tasks: project management, engineering tasks, mandatory publicity We comply with environmental and equal opportunities legislation applicable to the project. In the area affected by the project, the protected natural and cultural values are preserved, and the environmental damage and non-compliance that is contrary to the law from the point of view of equal opportunities will be eliminated at the latest during the implementation of the project. In public events, communication and behaviour related to development, we express a sense of opportunity, do not mediate segregation, reduce existing prejudices with regard to groups. We have an Equal Opportunities Plan, which we have attached as part of our application for support. The ownership conditions of the property concerned by the development are in accordance with point 7 of the GTC. (English) / rank | |||||||||||||||
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Property / summary: During the project, the solar panel system of the Nyírő Gyula Hospital headquarters building (1135 Budapest, Lehel utca 59-61) will be built. Technical content: A total of 1152 tables of solar panels are installed on the roof of the building, with a total output of 299,52kWp. Solar panels are of the Hisunage HSG260-60P type, characterised by high efficiency and long-term reliability, both in quality and in performance. The performance of each panel is 260 W. The solar panels are south-facing. The electricity generated by these panels is 356.000 kWh per year. The DC power generated by the panels is converted by 6pcs Kaco 60.0 TL3 inverter into AC current corresponding to the mains voltage, which is suitable for the energy consumption of household customers. The panels are fixed with an aluminum rail, which ensures a long and durable service life. On flat roofed roof surfaces the positioning of the panels is carried out with bets, on which the fastening rails and the panels are positioned accurately. The feed is carried out through a meter to be placed in the electrical cabinet in the mains. The electricity collected by the solar panels is extracted in an insulating tube using a five-meter cable to the inverters placed next to the measuring cabinet, which are connected to the meter. During the installation of the solar panel system, persons working on the roof can perform the activity in shoes with non-slip soles, with an obligation to fasten and wear a safety helmet. In the case of solar panel systems, an overvoltage protector on both sides of the inverter shall be installed to protect the equipment from overvoltage and near lightning strikes. Connecting and connecting the metal structure holding the panels to the grounding terminal of the inverter ensures the ground potential of the system through the EPH junction of the building. By implementing their project, we contribute to increasing the amount of energy from renewable sources by reducing the use of fossil fuels, thereby contributing to the reduction of primary energy consumption and greenhouse gas emissions. Activities under the project: Of the activities eligible for self-sufficiency: II. Development of a grid-connected solar system with a connection capacity of 50-500 kVA for the purpose of meeting its own electricity demand directly or partially. Eligible investment elements: Solar panels, supporting devices, racks, elements needed to connect to a local system or to the grid (e.g. inverter) and the costs of their installation, purchase and installation of separate metering and control equipment, purchase and installation of a meter recording monthly electricity consumption data. Only the electricity generation side (in the case of a solar system up to the AC-side connection device) is eligible for self-eligible activities: — Project preparation — Relevant tasks: project management, engineering tasks, mandatory publicity We comply with environmental and equal opportunities legislation applicable to the project. In the area affected by the project, the protected natural and cultural values are preserved, and the environmental damage and non-compliance that is contrary to the law from the point of view of equal opportunities will be eliminated at the latest during the implementation of the project. In public events, communication and behaviour related to development, we express a sense of opportunity, do not mediate segregation, reduce existing prejudices with regard to groups. We have an Equal Opportunities Plan, which we have attached as part of our application for support. The ownership conditions of the property concerned by the development are in accordance with point 7 of the GTC. (English) / qualifier | |||||||||||||||
point in time: 9 February 2022
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Revision as of 09:29, 9 February 2022
Project Q3943837 in Hungary
Language | Label | Description | Also known as |
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English | Building the solar system of Gyula Nyírő Hospital |
Project Q3943837 in Hungary |
Statements
169,490,390 forint
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520,587.943 Euro
0.0027336256 Euro
15 December 2021
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190,438,640.449 forint
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88.999998 percent
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1 April 2017
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1 February 2018
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NYÍRŐ GYULA ORSZÁGOS PSZICHIÁTRIAI ÉS ADDIKTOLÓGIAI INTÉZET
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A projekt során kiépítésre kerül a Nyírő Gyula Kórház székhely épületének (1135 Budapest, Lehel utca 59-61.) a napelemes rendszere. Műszaki tartalom: Az épület tetejére összesen 1152 tábla napelem kerül kialakításra, melyek összteljesítménye 299,52kWp. A napelem panelek Hisunage HSG260-60P típusúak, melyekre jellemző a magas hatásfok és a hosszú távú megbízhatóság mind minőségben, mind teljesítményben. Az egyes panelek teljesítménye 260W értékű. A napelem táblák déli tájolásúak. Ezen panelok által termelt villamos energia értéke éves szinten 356.000 kWh. A panelek által megtermelt egyenáramú villamos energiát 6db KACO 60.0 TL3 inverter alakítja a hálózati feszültségnek megfelelő váltóárammá, ami alkalmas a háztartásban lévő fogyasztók energiafelhasználására. A panelek rögzítése alumínium sínnel történik, mely biztosítja a hosszú és tartós élettartamot. A lapostetős tetőfelületekre az elhelyezés betongúlákkal történik, melyre kerül a rögzítő sín és lefogató lapokkal a panelek pontos pozícionálása. A betáplálás a villamos hálózatba a villamos szekrénybe elhelyezendő mérőórán keresztül történik. A napelem panelok által összegyűjtött villamos energiát öt eres kábellel szigetelőcsőben vezetjük le a mérőszekrény mellé elhelyezett inverterekig, melyek a mérőórára csatlakoznak. A napelemes rendszer telepítése során, a tetőn munkát végző személyek csúszásmentes talpú cipőben végezhetik a tevékenységet, köteles rögzítéssel és munkavédelmi sisak viselésével. A napelemes rendszerek esetében az inverter mindkét oldalán túlfeszültség védőt kell kiépíteni, mely védi a berendezést a túlfeszültség és a közeli villámcsapás okozta behatásoktól. A panelokat tartó fémszerkezet összekötése és bekötése az inverter földelő kapcsába biztosítja az épület EPH csomópontján keresztül a rendszer földpotenciáljának biztosítását. Projektjük megvalósításával hozzájárulunk a megújuló energiaforrásból előállított energiamennyiség növeléséhez csökkentve a fosszilis energiahordozó felhasználását, ezzel hozzájárulva a primer energia felhasználás, valamint az üvegházhatású gázok kibocsátásának csökkentéséhez. A projekt keretében megvalósuló tevékenységek: Önállóan támogatható tevékenységek közül: II. 50-500 kVA csatlakozási teljesítményű, hálózatra csatlakozó napelemes rendszer kialakítása saját villamosenergia-igény részbeni vagy teljes közvetlen kielégítése céljából Támogatható beruházási elemek: Napelemek, tartó eszközök, állványok, helyi rendszerhez illetve a hálózathoz való csatlakozáshoz szükséges elemek (pl. inverter) és ezek kiépítésének költségei, külön mérő-és szabályozó berendezések beszerzése és felszerelése, a havi villamosenergia-fogyasztási adatokat rögzítő mérőeszköz beszerzése és felszerelése. Kizárólag a villamos energia termelői oldal támogatható (napelemes rendszer esetén az AC oldali hálózati csatlakozásához szükséges eszközig) Önállóan nem támogatható tevékenységek közül: - Projekt-előkészítés - Járulékos feladatok: projekt menedzsment, mérnöki feladatok, kötelező nyilvánosság ellátása A projektre vonatkozó környezetvédelmi és esélyegyenlőségi jogszabályokat betartjuk. A projekt által érintett területen a védett természeti és kulturális értékeket megőrizzük, a fennálló vagy a beruházás során keletkezett környezeti kárt és az esélyegyenlőség szempontjából jogszabályba ütköző nem-megfelelőséget legkésőbb a projekt megvalósítása során megszüntetjük. A fejlesztéshez kapcsolódó nyilvános eseményeken, kommunikációjában és viselkedésében esélytudatosságot fejezünk ki, nem közvetítünk szegregációt, csökkentjük a csoportokra vonatkozó meglévő előítéleteket. Rendelkezünk Esélyegyenlőségi Tervvel, melyet támogatási kérelmünk részeként becsatoltunk. A fejlesztéssel érintett ingatlan tulajdoni viszonyai az ÁÚF 7. pontjában foglaltaknak megfelelnek. (Hungarian)
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During the project, the solar panel system of the Nyírő Gyula Hospital headquarters building (1135 Budapest, Lehel utca 59-61) will be built. Technical content: A total of 1152 tables of solar panels are installed on the roof of the building, with a total output of 299,52kWp. Solar panels are of the Hisunage HSG260-60P type, characterised by high efficiency and long-term reliability, both in quality and in performance. The performance of each panel is 260 W. The solar panels are south-facing. The electricity generated by these panels is 356.000 kWh per year. The DC power generated by the panels is converted by 6pcs Kaco 60.0 TL3 inverter into AC current corresponding to the mains voltage, which is suitable for the energy consumption of household customers. The panels are fixed with an aluminum rail, which ensures a long and durable service life. On flat roofed roof surfaces the positioning of the panels is carried out with bets, on which the fastening rails and the panels are positioned accurately. The feed is carried out through a meter to be placed in the electrical cabinet in the mains. The electricity collected by the solar panels is extracted in an insulating tube using a five-meter cable to the inverters placed next to the measuring cabinet, which are connected to the meter. During the installation of the solar panel system, persons working on the roof can perform the activity in shoes with non-slip soles, with an obligation to fasten and wear a safety helmet. In the case of solar panel systems, an overvoltage protector on both sides of the inverter shall be installed to protect the equipment from overvoltage and near lightning strikes. Connecting and connecting the metal structure holding the panels to the grounding terminal of the inverter ensures the ground potential of the system through the EPH junction of the building. By implementing their project, we contribute to increasing the amount of energy from renewable sources by reducing the use of fossil fuels, thereby contributing to the reduction of primary energy consumption and greenhouse gas emissions. Activities under the project: Of the activities eligible for self-sufficiency: II. Development of a grid-connected solar system with a connection capacity of 50-500 kVA for the purpose of meeting its own electricity demand directly or partially. Eligible investment elements: Solar panels, supporting devices, racks, elements needed to connect to a local system or to the grid (e.g. inverter) and the costs of their installation, purchase and installation of separate metering and control equipment, purchase and installation of a meter recording monthly electricity consumption data. Only the electricity generation side (in the case of a solar system up to the AC-side connection device) is eligible for self-eligible activities: — Project preparation — Relevant tasks: project management, engineering tasks, mandatory publicity We comply with environmental and equal opportunities legislation applicable to the project. In the area affected by the project, the protected natural and cultural values are preserved, and the environmental damage and non-compliance that is contrary to the law from the point of view of equal opportunities will be eliminated at the latest during the implementation of the project. In public events, communication and behaviour related to development, we express a sense of opportunity, do not mediate segregation, reduce existing prejudices with regard to groups. We have an Equal Opportunities Plan, which we have attached as part of our application for support. The ownership conditions of the property concerned by the development are in accordance with point 7 of the GTC. (English)
9 February 2022
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Budapest, Budapest
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Identifiers
KEHOP-5.2.11-16-2016-00076
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