Building a solar system at Karczub and Társa Bt. (Q3935033): Difference between revisions
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The scope of activity to be developed is TEAOR 16.10. — Lumber manufacturing. The aim of the development is to develop electricity supply by installing a solar system. The building has a sawmill, whose energy supply is intended. The detailed technical content of the development is described in detail in the previous section. During the preparation of the project, we examined the consumption by processing the electricity bills. At the time of design, we agreed with an energetician to ensure that the connection power should not exceed the combined rated power of the solar panels by more than 20 %. We have observed that the amount of electricity that can be generated does not exceed the annual electricity demand after development. Construction is not required by a building permit. The plans are complete, attached. From the point of view of feasibility, we also consulted with the contractor, and the technical content was developed on this basis. In the case of the project’s success, the most important step is the contract with the contractor, the implementation of the project and the settlement within the deadline foreseen in the project. Project management members have several years of experience in implementing EU projects. A number of successfully implemented projects have been implemented and accounted to the donor. In all cases, the aid has been paid in full. The project element to be developed is the installation of the solar panel system for electricity generation in the grid. The rated power of the system is 50 kWp. Acquisition and installation of components of the systems; the purchase and installation of the related structural and support elements, the purchase and installation of the elements necessary for connection to the building’s electrical system and for connection to the grid and for technically safe operation, and the purchase and installation of measuring and control equipment. The solar system is installed only on the roofing of buildings on the property concerned by the development. Location of installation: 4341 Nyírvasvári, Móricz Zsigmond street 15. 680 hrs. The 178 solar panels with a power of 330 kwp are fixed with a solar plate cap. Their task is to produce energy. The task of the inverter is to feed the generated electricity into the grid. DC side connectors, wiring: MC4; double-insulated (1000V DC) 6 mm² solar wire. DC side protection: as there will be 3 strings in parallel, the DC side will need to have fault protection. Overvoltage protection on the DC side with type 2 (no lightning rod on the building) conductors solved. DC connector box installation location next to the inverter with IP 65 protection; YEAR II DC disconnection switch in the coupling box (min. 80A); EPH rail; connecting devices (line clamps) are installed. On the AC side, the inverter connects to the 0.4 kV network with a fixed connection via a connecting box. Surge protection with type 2 conductors towards the inverter input. The AC connector cabinet is placed next to the inverter. 3pcs Santon fire protection switch 4P DFS HP-14 MC4 is placed in the immediate vicinity of solar panels. (English) | |||||||||||||||
| Property / summary: The scope of activity to be developed is TEAOR 16.10. — Lumber manufacturing. The aim of the development is to develop electricity supply by installing a solar system. The building has a sawmill, whose energy supply is intended. The detailed technical content of the development is described in detail in the previous section. During the preparation of the project, we examined the consumption by processing the electricity bills. At the time of design, we agreed with an energetician to ensure that the connection power should not exceed the combined rated power of the solar panels by more than 20 %. We have observed that the amount of electricity that can be generated does not exceed the annual electricity demand after development. Construction is not required by a building permit. The plans are complete, attached. From the point of view of feasibility, we also consulted with the contractor, and the technical content was developed on this basis. In the case of the project’s success, the most important step is the contract with the contractor, the implementation of the project and the settlement within the deadline foreseen in the project. Project management members have several years of experience in implementing EU projects. A number of successfully implemented projects have been implemented and accounted to the donor. In all cases, the aid has been paid in full. The project element to be developed is the installation of the solar panel system for electricity generation in the grid. The rated power of the system is 50 kWp. Acquisition and installation of components of the systems; the purchase and installation of the related structural and support elements, the purchase and installation of the elements necessary for connection to the building’s electrical system and for connection to the grid and for technically safe operation, and the purchase and installation of measuring and control equipment. The solar system is installed only on the roofing of buildings on the property concerned by the development. Location of installation: 4341 Nyírvasvári, Móricz Zsigmond street 15. 680 hrs. The 178 solar panels with a power of 330 kwp are fixed with a solar plate cap. Their task is to produce energy. The task of the inverter is to feed the generated electricity into the grid. DC side connectors, wiring: MC4; double-insulated (1000V DC) 6 mm² solar wire. DC side protection: as there will be 3 strings in parallel, the DC side will need to have fault protection. Overvoltage protection on the DC side with type 2 (no lightning rod on the building) conductors solved. DC connector box installation location next to the inverter with IP 65 protection; YEAR II DC disconnection switch in the coupling box (min. 80A); EPH rail; connecting devices (line clamps) are installed. On the AC side, the inverter connects to the 0.4 kV network with a fixed connection via a connecting box. Surge protection with type 2 conductors towards the inverter input. The AC connector cabinet is placed next to the inverter. 3pcs Santon fire protection switch 4P DFS HP-14 MC4 is placed in the immediate vicinity of solar panels. (English) / rank | |||||||||||||||
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| Property / summary: The scope of activity to be developed is TEAOR 16.10. — Lumber manufacturing. The aim of the development is to develop electricity supply by installing a solar system. The building has a sawmill, whose energy supply is intended. The detailed technical content of the development is described in detail in the previous section. During the preparation of the project, we examined the consumption by processing the electricity bills. At the time of design, we agreed with an energetician to ensure that the connection power should not exceed the combined rated power of the solar panels by more than 20 %. We have observed that the amount of electricity that can be generated does not exceed the annual electricity demand after development. Construction is not required by a building permit. The plans are complete, attached. From the point of view of feasibility, we also consulted with the contractor, and the technical content was developed on this basis. In the case of the project’s success, the most important step is the contract with the contractor, the implementation of the project and the settlement within the deadline foreseen in the project. Project management members have several years of experience in implementing EU projects. A number of successfully implemented projects have been implemented and accounted to the donor. In all cases, the aid has been paid in full. The project element to be developed is the installation of the solar panel system for electricity generation in the grid. The rated power of the system is 50 kWp. Acquisition and installation of components of the systems; the purchase and installation of the related structural and support elements, the purchase and installation of the elements necessary for connection to the building’s electrical system and for connection to the grid and for technically safe operation, and the purchase and installation of measuring and control equipment. The solar system is installed only on the roofing of buildings on the property concerned by the development. Location of installation: 4341 Nyírvasvári, Móricz Zsigmond street 15. 680 hrs. The 178 solar panels with a power of 330 kwp are fixed with a solar plate cap. Their task is to produce energy. The task of the inverter is to feed the generated electricity into the grid. DC side connectors, wiring: MC4; double-insulated (1000V DC) 6 mm² solar wire. DC side protection: as there will be 3 strings in parallel, the DC side will need to have fault protection. Overvoltage protection on the DC side with type 2 (no lightning rod on the building) conductors solved. DC connector box installation location next to the inverter with IP 65 protection; YEAR II DC disconnection switch in the coupling box (min. 80A); EPH rail; connecting devices (line clamps) are installed. On the AC side, the inverter connects to the 0.4 kV network with a fixed connection via a connecting box. Surge protection with type 2 conductors towards the inverter input. The AC connector cabinet is placed next to the inverter. 3pcs Santon fire protection switch 4P DFS HP-14 MC4 is placed in the immediate vicinity of solar panels. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:46, 8 February 2022
Project Q3935033 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Building a solar system at Karczub and Társa Bt. |
Project Q3935033 in Hungary |
Statements
14,445,700 forint
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26,264,909.091 forint
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55.0 percent
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1 July 2020
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31 December 2021
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Karczub és Társa Fafeldolgozó és Szolgáltató Betéti Társaság
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47°48'24.95"N, 22°12'6.62"E
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A fejleszteni kívánt tevékenységi kör a TEAOR 16.10. – Fűrészárú gyártás. A fejlesztés célja a villamos energia ellátás fejlesztése napelemes rendszer telepítésével. Az épületben fűrészüzem működik, melynek energiaellátása a cél. A fejlesztés részletes szakmai tartalma az előző pontban részletesen bemutatásra kerül. A projekt előkészítés során megvizsgáltuk a fogyasztást az áramszámlák feldolgozásával. A tervezésekor egyeztettünk energetikussal, hogy a csatlakozási teljesítményt 20%-nál nagyobb mértékben ne haladhatja meg a beépített napelemek összesített névleges teljesítménye. Figyeltünk arra, hogy az termelhető villamos energia mennyisége ne haladja meg a fejlesztés utáni éves villamosenergia-igényt. A létesítés nem építési engedély köteles. A tervek elkészültek, csatoltuk. A megvalósíthatóság szempontjából kivitelezővel is egyeztettünk, a műszaki tartalom kialakítása ez alapján történt. A projekt nyertessége esetén a legfontosabb lépés a szerződéskötés a kivitelezővel, a projekt megvalósítása és az elszámolás a projektben tervezett határidőn belül. A projektmenedzsment tagjainak több éves tapasztalata van európai uniós projektek megvalósításában. Számtalan sikeresen végrehajtott projektet valósítottak meg és számoltak el a támogató felé. A támogatás minden esetben maradéktalanul kifizetésre került. A kialakításra kerülő projektelem a Napelemes rendszer telepítése hálózati villamosenergia-termelés céljából. A tervezett rendszer teljesítménye 50 kWp névleges teljesítményű. A rendszerek elemeinek beszerzése és telepítése; a kapcsolódó szerkezeti- és tartóelemek beszerzése és telepítése, az épület elektromos rendszeréhez illetve a hálózathoz való csatlakozáshoz és a műszakilag biztonságos működéshez szükséges elemek beszerzése és ezek kiépítése és a mérő- és szabályozó berendezések beszerzése és felszerelése történik meg. A napelemes rendszer kizárólag a fejlesztéssel érintett ingatlanon lévő épületek tetőszerkezetén kerül elhelyezésre. A telepítési hely: 4341 Nyírvasvári, Móricz Zsigmond út 15. 680 hrsz. A 178 db egyenként 330 kwp teljesítményű napelem rögzítése solar lemeztető tartószerkezettel történik. Feladatuk az energiatermelés. Az inverter feladata a termelt elektromos energia hálózatba táplálása. DC oldali csatlakozók, vezetékek: MC4; kettősszigetelésű (1000V DC) 6 mm2 szolár vezeték. DC oldali védelem: mivel párhuzamosan kialakított 3 string lesz, így a DC oldalon zárlatvédelem kialakítása szükséges. Túlfeszültségvédelem DC oldalon 2-es típusú (nincs villámhárító az épületen) levezetőkkel megoldva. DC csatlakozó doboz telepítési helye az inverter mellett, IP 65-ös védettséggel; ÉV II. A csatlakozó dobozban DC szakaszoló kapcsoló (min. 80A); EPH sín; csatlakozó eszközök (sorkapcsok) kerülnek elhelyezésre. AC oldalon az inverter fix bekötéssel csatlakozik a 0,4 kV-os hálózathoz, csatlakozó dobozon keresztül. Túlfeszültségvédelem 2-es típusú levezetőkkel az inverter bemenet felé. Az AC csatlakozó szekrény az inverter mellett kerül elhelyezésre. 3db Santon tűzvédelmi kapcsoló 4P DFS HP-14 MC4 a napelemek közvetlen közelében kerülnek elhelyezésre. (Hungarian)
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The scope of activity to be developed is TEAOR 16.10. — Lumber manufacturing. The aim of the development is to develop electricity supply by installing a solar system. The building has a sawmill, whose energy supply is intended. The detailed technical content of the development is described in detail in the previous section. During the preparation of the project, we examined the consumption by processing the electricity bills. At the time of design, we agreed with an energetician to ensure that the connection power should not exceed the combined rated power of the solar panels by more than 20 %. We have observed that the amount of electricity that can be generated does not exceed the annual electricity demand after development. Construction is not required by a building permit. The plans are complete, attached. From the point of view of feasibility, we also consulted with the contractor, and the technical content was developed on this basis. In the case of the project’s success, the most important step is the contract with the contractor, the implementation of the project and the settlement within the deadline foreseen in the project. Project management members have several years of experience in implementing EU projects. A number of successfully implemented projects have been implemented and accounted to the donor. In all cases, the aid has been paid in full. The project element to be developed is the installation of the solar panel system for electricity generation in the grid. The rated power of the system is 50 kWp. Acquisition and installation of components of the systems; the purchase and installation of the related structural and support elements, the purchase and installation of the elements necessary for connection to the building’s electrical system and for connection to the grid and for technically safe operation, and the purchase and installation of measuring and control equipment. The solar system is installed only on the roofing of buildings on the property concerned by the development. Location of installation: 4341 Nyírvasvári, Móricz Zsigmond street 15. 680 hrs. The 178 solar panels with a power of 330 kwp are fixed with a solar plate cap. Their task is to produce energy. The task of the inverter is to feed the generated electricity into the grid. DC side connectors, wiring: MC4; double-insulated (1000V DC) 6 mm² solar wire. DC side protection: as there will be 3 strings in parallel, the DC side will need to have fault protection. Overvoltage protection on the DC side with type 2 (no lightning rod on the building) conductors solved. DC connector box installation location next to the inverter with IP 65 protection; YEAR II DC disconnection switch in the coupling box (min. 80A); EPH rail; connecting devices (line clamps) are installed. On the AC side, the inverter connects to the 0.4 kV network with a fixed connection via a connecting box. Surge protection with type 2 conductors towards the inverter input. The AC connector cabinet is placed next to the inverter. 3pcs Santon fire protection switch 4P DFS HP-14 MC4 is placed in the immediate vicinity of solar panels. (English)
8 February 2022
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Nyírvasvári, Szabolcs-Szatmár-Bereg
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Identifiers
GINOP-4.1.4-19-2020-01947
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