Nagy László János e.v. energy efficiency development in Makó, Csanád Vezér tér 29. (Q3935660): Difference between revisions
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The property located in Makó, Csanád Fő tér is owned by the wife of the sole trader, and the applicant uses the property on the basis of a lease agreement for the operation of his business. The property is located in the downtown of Makó, next to the bus station. The frequent location has a positive impact on the effectiveness of the productive activity in this area and the maintenance of regular traffic levels. The building is one-storey. Compared to the street front, there is a kitchen-fryery, refrigerator room, dressing room and washroom for employees in the back of the building. The retail activity takes place in the sales area, including the consumer space for guests and toilets. László Nagy’s entrepreneur has already negotiated with several contractors in advance. In this context, it also submitted the request to the service provider for prior consent in principle. This means that the public network and the entry point are suitable for connecting the small solar power plant after installation. Prior consultation with potential contractors has been initiated and the service provider’s prior consent has already been obtained. The contractor providing the best bid shall build the system in accordance with the construction contract concluded in advance: installation and fixing of solar panels, technical installation of electrical connection point (inverter, AC/DC side protection, electrical connection). They prepare the touch protection report and then ad-take meter is installed by the service provider. The energy consumption calculated in project planning is 20-22ekWh per year, which shows a slight increase over several years. Therefore, we plan in advance to install a system that can produce the annual electricity demand with certainty and is also capable of producing an additional cca 10ekWh in terms of the size of the connection point. Therefore, it is planned to install two Fronius 12.5-3-M type inverters, for which 61 monocrystalline solar panels with a power of 350Wp will be installed in 3 strings. Considering the loadability of the inverters, an additional 24 solar panels of the same power can be extended to the system. The panels are placed on the roof surface of the building with an aluminium support structure. They are connected using the connectors found in the factory, and then discharged to the intended location of the inverter, where the DC and AC-side electrical fittings will be found. The main system elements to be used in the construction process are: — Fronius SYMO 12.5-3-M inverter — Monocrystalline solar panel 350 Wp power — Aluminum support structure and fastening elements — AC and DC side overvoltage protection Fronius inverters are one of the most prestigious inverters in the solar market and have a wide range of domestic service networks. Solar panels are made using the latest technologies, which are reflected in their efficiency, reliability and resistance to environmental impacts on our climate belt. The support structures are made of aluminium, which is resistant to environmental effects in the long term and is also static. It has been a major player in the market throughout Europe for decades. Several solutions can be used to build AC/DC side protection. The products represent almost the same technical standards. (English) | |||||||||||||||
| Property / summary: The property located in Makó, Csanád Fő tér is owned by the wife of the sole trader, and the applicant uses the property on the basis of a lease agreement for the operation of his business. The property is located in the downtown of Makó, next to the bus station. The frequent location has a positive impact on the effectiveness of the productive activity in this area and the maintenance of regular traffic levels. The building is one-storey. Compared to the street front, there is a kitchen-fryery, refrigerator room, dressing room and washroom for employees in the back of the building. The retail activity takes place in the sales area, including the consumer space for guests and toilets. László Nagy’s entrepreneur has already negotiated with several contractors in advance. In this context, it also submitted the request to the service provider for prior consent in principle. This means that the public network and the entry point are suitable for connecting the small solar power plant after installation. Prior consultation with potential contractors has been initiated and the service provider’s prior consent has already been obtained. The contractor providing the best bid shall build the system in accordance with the construction contract concluded in advance: installation and fixing of solar panels, technical installation of electrical connection point (inverter, AC/DC side protection, electrical connection). They prepare the touch protection report and then ad-take meter is installed by the service provider. The energy consumption calculated in project planning is 20-22ekWh per year, which shows a slight increase over several years. Therefore, we plan in advance to install a system that can produce the annual electricity demand with certainty and is also capable of producing an additional cca 10ekWh in terms of the size of the connection point. Therefore, it is planned to install two Fronius 12.5-3-M type inverters, for which 61 monocrystalline solar panels with a power of 350Wp will be installed in 3 strings. Considering the loadability of the inverters, an additional 24 solar panels of the same power can be extended to the system. The panels are placed on the roof surface of the building with an aluminium support structure. They are connected using the connectors found in the factory, and then discharged to the intended location of the inverter, where the DC and AC-side electrical fittings will be found. The main system elements to be used in the construction process are: — Fronius SYMO 12.5-3-M inverter — Monocrystalline solar panel 350 Wp power — Aluminum support structure and fastening elements — AC and DC side overvoltage protection Fronius inverters are one of the most prestigious inverters in the solar market and have a wide range of domestic service networks. Solar panels are made using the latest technologies, which are reflected in their efficiency, reliability and resistance to environmental impacts on our climate belt. The support structures are made of aluminium, which is resistant to environmental effects in the long term and is also static. It has been a major player in the market throughout Europe for decades. Several solutions can be used to build AC/DC side protection. The products represent almost the same technical standards. (English) / rank | |||||||||||||||
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| Property / summary: The property located in Makó, Csanád Fő tér is owned by the wife of the sole trader, and the applicant uses the property on the basis of a lease agreement for the operation of his business. The property is located in the downtown of Makó, next to the bus station. The frequent location has a positive impact on the effectiveness of the productive activity in this area and the maintenance of regular traffic levels. The building is one-storey. Compared to the street front, there is a kitchen-fryery, refrigerator room, dressing room and washroom for employees in the back of the building. The retail activity takes place in the sales area, including the consumer space for guests and toilets. László Nagy’s entrepreneur has already negotiated with several contractors in advance. In this context, it also submitted the request to the service provider for prior consent in principle. This means that the public network and the entry point are suitable for connecting the small solar power plant after installation. Prior consultation with potential contractors has been initiated and the service provider’s prior consent has already been obtained. The contractor providing the best bid shall build the system in accordance with the construction contract concluded in advance: installation and fixing of solar panels, technical installation of electrical connection point (inverter, AC/DC side protection, electrical connection). They prepare the touch protection report and then ad-take meter is installed by the service provider. The energy consumption calculated in project planning is 20-22ekWh per year, which shows a slight increase over several years. Therefore, we plan in advance to install a system that can produce the annual electricity demand with certainty and is also capable of producing an additional cca 10ekWh in terms of the size of the connection point. Therefore, it is planned to install two Fronius 12.5-3-M type inverters, for which 61 monocrystalline solar panels with a power of 350Wp will be installed in 3 strings. Considering the loadability of the inverters, an additional 24 solar panels of the same power can be extended to the system. The panels are placed on the roof surface of the building with an aluminium support structure. They are connected using the connectors found in the factory, and then discharged to the intended location of the inverter, where the DC and AC-side electrical fittings will be found. The main system elements to be used in the construction process are: — Fronius SYMO 12.5-3-M inverter — Monocrystalline solar panel 350 Wp power — Aluminum support structure and fastening elements — AC and DC side overvoltage protection Fronius inverters are one of the most prestigious inverters in the solar market and have a wide range of domestic service networks. Solar panels are made using the latest technologies, which are reflected in their efficiency, reliability and resistance to environmental impacts on our climate belt. The support structures are made of aluminium, which is resistant to environmental effects in the long term and is also static. It has been a major player in the market throughout Europe for decades. Several solutions can be used to build AC/DC side protection. The products represent almost the same technical standards. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:55, 8 February 2022
Project Q3935660 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Nagy László János e.v. energy efficiency development in Makó, Csanád Vezér tér 29. |
Project Q3935660 in Hungary |
Statements
7,194,950 forint
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13,081,727.273 forint
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54.999993 percent
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31 October 2020
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31 December 2021
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Nagy László János e.v.
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46°12'54.14"N, 20°28'30.36"E
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A Makó, Csanád vezér téren található ingatlan az egyéni vállalkozó feleségének tulajdonában van, a pályázó bérleti szerződés alapján használja az ingatlant vállalkozásának működtetéséhez. Az ingatlan Makó belvárosában, a buszpályaudvar tőszomszédságában található. A frekventált elhelyezkedés az itt folyó termelő tevékenység eredményességét, a forgalom rendszeres szinten tartását pozitívan befolyásolja. Az épület egyszintes. Az épület utcafronthoz képest hátsó tereiben helyezkedik el a friss termék előállításhoz szükséges konyha-sütöde, hűtőkamra, az alkalmazottak részére kialakított öltöző, mosdó helyiségek. Az eladótérben a kiskereskedelmi tevékenység zajlik, melyhez tartozik a vendégek részére kialakított fogyasztó tér is, valamint mosdók. Nagy László vállalkozó több kivitelező vállalkozóval is már tárgyalt előzetesen. Ennek keretében be is nyújtotta az előzetes elvi hozzájárulás megkéréséhez szükséges kérelmet a szolgáltatóhoz. Ennek értelmében a közcélú hálózat és a betáplálási pont alkalmas a napelemes kiserőmű telepítése utáni csatlakoztatására. A lehetséges kivitelezőkkel történő előzetes egyeztetést megkezdte és a szolgáltató előzetes elvi hozzájárulását már megkapta. A legjobb árajánlatot adó kivitelező az előzetesen megkötött kivitelezési szerződés értelmében kiépíti a rendszert: napelem panelek elhelyezése, rögzítése, elektromos csatlakozási pont műszaki kiépítése (inverter, AC/DC oldali védelem, elektromos bekötés). Elkészítik az érintésvédelmi jegyzőkönyvet, majd ad-vesz mérőt szerel fel a szolgáltató. A projekt tervezése során kalkulált energia felhasználás 20-22ekWh évente, amely több évre visszanézve enyhe emelkedést mutat. Ezért előzetesen olyan rendszer telepítését tervezzük, amely biztonsággal elő tudja állítani az éves villamos energia szükségletet és emellett még további cca 10ekWh megtermelésére is alkalmas a csatlakozási pont méretét illetően. Ezért az előzetes tervek szerint kettő Fronius 12.5-3-M típusú inverter kerül felszerelésre, amelyhez 61 db 350Wp teljesítményű monokristályos napelemek kerülnek felszerelésre 3 sztringben. Az inverterek terhelhetőségét figyelembe véve a rendszerbe további 24 db azonos teljesítményű napelem panel bővíthető. A panelek az épület cserepes tetőhéjazatára kerülnek elhelyezésre alumínium tartószerkezettel rögzítve. A rajtuk gyárilag megtalálható csatlakozók segítségével kerülnek összekötésre, majd elvezetésre kerül az inverter tervezett helyére, ahol a DC és az AC oldali elektromos szerelvények is megtalálhatóak lesznek. A kivitelezés során felhasználandó, beépítendő fontosabb rendszer elemek: - Fronius Symo 12.5-3-M inverter - Monokristályos napelem 350 Wp teljesítmény - Alumínium tartószerkezet és rögzítő elemek - AC és DC oldali túlfeszültség védelem A Fronius inverterek a napelemes piac egyik legmeghatározóbb inverterei megbízhatóságuk szerint és rendelkezik széleskörű hazai szervízhálózattal is. A napelemek a legújabb technológiák alkalmazásával készülnek, amely hatékonyságukban, megbízhatóságukban és az éghajlati övünkön jellemző környezeti hatások elleni ellenállásban mutatkozik meg. A tartószerkezetek alumíniumból vannak, amely hosszútávon ellenáll a környezeti hatásoknak és statikailag is kiválóak. A piac meghatározó szereplője már hosszú évtizedek óta egész Európában. Az AC/DC oldali védelem kiépítésére több megoldás is alkalmazható. A termékek műszakilag szinte teljesen azonos színvonalat képviselnek. (Hungarian)
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The property located in Makó, Csanád Fő tér is owned by the wife of the sole trader, and the applicant uses the property on the basis of a lease agreement for the operation of his business. The property is located in the downtown of Makó, next to the bus station. The frequent location has a positive impact on the effectiveness of the productive activity in this area and the maintenance of regular traffic levels. The building is one-storey. Compared to the street front, there is a kitchen-fryery, refrigerator room, dressing room and washroom for employees in the back of the building. The retail activity takes place in the sales area, including the consumer space for guests and toilets. László Nagy’s entrepreneur has already negotiated with several contractors in advance. In this context, it also submitted the request to the service provider for prior consent in principle. This means that the public network and the entry point are suitable for connecting the small solar power plant after installation. Prior consultation with potential contractors has been initiated and the service provider’s prior consent has already been obtained. The contractor providing the best bid shall build the system in accordance with the construction contract concluded in advance: installation and fixing of solar panels, technical installation of electrical connection point (inverter, AC/DC side protection, electrical connection). They prepare the touch protection report and then ad-take meter is installed by the service provider. The energy consumption calculated in project planning is 20-22ekWh per year, which shows a slight increase over several years. Therefore, we plan in advance to install a system that can produce the annual electricity demand with certainty and is also capable of producing an additional cca 10ekWh in terms of the size of the connection point. Therefore, it is planned to install two Fronius 12.5-3-M type inverters, for which 61 monocrystalline solar panels with a power of 350Wp will be installed in 3 strings. Considering the loadability of the inverters, an additional 24 solar panels of the same power can be extended to the system. The panels are placed on the roof surface of the building with an aluminium support structure. They are connected using the connectors found in the factory, and then discharged to the intended location of the inverter, where the DC and AC-side electrical fittings will be found. The main system elements to be used in the construction process are: — Fronius SYMO 12.5-3-M inverter — Monocrystalline solar panel 350 Wp power — Aluminum support structure and fastening elements — AC and DC side overvoltage protection Fronius inverters are one of the most prestigious inverters in the solar market and have a wide range of domestic service networks. Solar panels are made using the latest technologies, which are reflected in their efficiency, reliability and resistance to environmental impacts on our climate belt. The support structures are made of aluminium, which is resistant to environmental effects in the long term and is also static. It has been a major player in the market throughout Europe for decades. Several solutions can be used to build AC/DC side protection. The products represent almost the same technical standards. (English)
8 February 2022
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Makó, Csongrád-Csanád
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Identifiers
GINOP-4.1.4-19-2020-02816
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