Construction of a solar system at Autó Baumgartner Kft. (Q3934548): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed an Item: add summary)
(‎Changed an Item: Adding English translations)
Property / summary
 
The developer intends to build a solar power generation system at the above address. The design — si task is to prepare the electrical licensing plan for this system. The builder intends to build a solar power generation system with a nominal capacity of 49.58 kWp at the above address — The small solar power plant is connected to the KIF side of the installation, with production to the grid. Thus, the electricity produced is, in practice, only capable of reducing the consumption of the installation. As the system regenerates the public network, the construction of the system is not an activity subject to building permit. Commissioning with the coordination of protective devices, MSZ EN 50160:2010/A1:2015 Operating voltage: 3F + N, 400/230V, 50 Hz Touch protection: zeroing (TN system +EPH) The rated power of a small solar power plant is 49.58 kWp 3.1 Solar panels: At the designated place (see: location drawing) between the terminals of solar panels placed in the light is exposed to electric DC voltage. Electrical data of the solar panels used: Name, Manufacturer: Luxor Solar Gmbh Type: Eco LINE M72/370 W Rated power (Pmax) 370 [W] Empty voltage (Voc) 47.58 [V] Short circuit current (Isc) 10.07 [A] Voltage for max. power (Vmp) 39.35 [V] Current strength (Imp) 9.54 [A] Module efficiency (%) 19.66 Connecting MC4: 134 Pcs The solar power plant can be used in several areas. The most optimal is the flat roof, so the solar panels can be placed on the support structure built on it. The roof surface shellthe plate roof, form trapezoidal plate. Solar panel fastening technology: K2 MiniRail sett for aluminum rail trapezoidal plate, which is fastened to the plate by screw bond. The screw is a self-sealing technology with outdoor UV standing rubber insulation. On the rail, the solar panel is mounted with a MiniClamp MC fastener. 3.2 Inverter unit The DC voltage at the terminals of the strings is converted by several inverter units to an alternating voltage of 230/400V 50 Hz, which is synchronised with the power supply voltage. The setup continuously monitors and controls the output. The harmonic distortion of the equipment is well below the allowed value, so it does not contaminate the network. The system is fully automatic. When the string voltage at the inverter input reaches the set turn-on value, the inverter turns on. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not feed it to lockdown, it is not able to operate in isolated operation. The inverter is designed for network-cooperative mode. The inverter is equipped with an independent circuit breaker system to ensure the safety of disconnection and the risk of island operation. The circuit breaker system providing the two completely independent galvanic separations is logically connected to each other. The circuit breaker system is located on the AC side of the inverter and is designed in such a way that it can withstand the fault current at the installation site without damage. (English)
Property / summary: The developer intends to build a solar power generation system at the above address. The design — si task is to prepare the electrical licensing plan for this system. The builder intends to build a solar power generation system with a nominal capacity of 49.58 kWp at the above address — The small solar power plant is connected to the KIF side of the installation, with production to the grid. Thus, the electricity produced is, in practice, only capable of reducing the consumption of the installation. As the system regenerates the public network, the construction of the system is not an activity subject to building permit. Commissioning with the coordination of protective devices, MSZ EN 50160:2010/A1:2015 Operating voltage: 3F + N, 400/230V, 50 Hz Touch protection: zeroing (TN system +EPH) The rated power of a small solar power plant is 49.58 kWp 3.1 Solar panels: At the designated place (see: location drawing) between the terminals of solar panels placed in the light is exposed to electric DC voltage. Electrical data of the solar panels used: Name, Manufacturer: Luxor Solar Gmbh Type: Eco LINE M72/370 W Rated power (Pmax) 370 [W] Empty voltage (Voc) 47.58 [V] Short circuit current (Isc) 10.07 [A] Voltage for max. power (Vmp) 39.35 [V] Current strength (Imp) 9.54 [A] Module efficiency (%) 19.66 Connecting MC4: 134 Pcs The solar power plant can be used in several areas. The most optimal is the flat roof, so the solar panels can be placed on the support structure built on it. The roof surface shellthe plate roof, form trapezoidal plate. Solar panel fastening technology: K2 MiniRail sett for aluminum rail trapezoidal plate, which is fastened to the plate by screw bond. The screw is a self-sealing technology with outdoor UV standing rubber insulation. On the rail, the solar panel is mounted with a MiniClamp MC fastener. 3.2 Inverter unit The DC voltage at the terminals of the strings is converted by several inverter units to an alternating voltage of 230/400V 50 Hz, which is synchronised with the power supply voltage. The setup continuously monitors and controls the output. The harmonic distortion of the equipment is well below the allowed value, so it does not contaminate the network. The system is fully automatic. When the string voltage at the inverter input reaches the set turn-on value, the inverter turns on. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not feed it to lockdown, it is not able to operate in isolated operation. The inverter is designed for network-cooperative mode. The inverter is equipped with an independent circuit breaker system to ensure the safety of disconnection and the risk of island operation. The circuit breaker system providing the two completely independent galvanic separations is logically connected to each other. The circuit breaker system is located on the AC side of the inverter and is designed in such a way that it can withstand the fault current at the installation site without damage. (English) / rank
 
Normal rank
Property / summary: The developer intends to build a solar power generation system at the above address. The design — si task is to prepare the electrical licensing plan for this system. The builder intends to build a solar power generation system with a nominal capacity of 49.58 kWp at the above address — The small solar power plant is connected to the KIF side of the installation, with production to the grid. Thus, the electricity produced is, in practice, only capable of reducing the consumption of the installation. As the system regenerates the public network, the construction of the system is not an activity subject to building permit. Commissioning with the coordination of protective devices, MSZ EN 50160:2010/A1:2015 Operating voltage: 3F + N, 400/230V, 50 Hz Touch protection: zeroing (TN system +EPH) The rated power of a small solar power plant is 49.58 kWp 3.1 Solar panels: At the designated place (see: location drawing) between the terminals of solar panels placed in the light is exposed to electric DC voltage. Electrical data of the solar panels used: Name, Manufacturer: Luxor Solar Gmbh Type: Eco LINE M72/370 W Rated power (Pmax) 370 [W] Empty voltage (Voc) 47.58 [V] Short circuit current (Isc) 10.07 [A] Voltage for max. power (Vmp) 39.35 [V] Current strength (Imp) 9.54 [A] Module efficiency (%) 19.66 Connecting MC4: 134 Pcs The solar power plant can be used in several areas. The most optimal is the flat roof, so the solar panels can be placed on the support structure built on it. The roof surface shellthe plate roof, form trapezoidal plate. Solar panel fastening technology: K2 MiniRail sett for aluminum rail trapezoidal plate, which is fastened to the plate by screw bond. The screw is a self-sealing technology with outdoor UV standing rubber insulation. On the rail, the solar panel is mounted with a MiniClamp MC fastener. 3.2 Inverter unit The DC voltage at the terminals of the strings is converted by several inverter units to an alternating voltage of 230/400V 50 Hz, which is synchronised with the power supply voltage. The setup continuously monitors and controls the output. The harmonic distortion of the equipment is well below the allowed value, so it does not contaminate the network. The system is fully automatic. When the string voltage at the inverter input reaches the set turn-on value, the inverter turns on. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not feed it to lockdown, it is not able to operate in isolated operation. The inverter is designed for network-cooperative mode. The inverter is equipped with an independent circuit breaker system to ensure the safety of disconnection and the risk of island operation. The circuit breaker system providing the two completely independent galvanic separations is logically connected to each other. The circuit breaker system is located on the AC side of the inverter and is designed in such a way that it can withstand the fault current at the installation site without damage. (English) / qualifier
 
point in time: 8 February 2022
Timestamp+2022-02-08T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 21:41, 8 February 2022

Project Q3934548 in Hungary
Language Label Description Also known as
English
Construction of a solar system at Autó Baumgartner Kft.
Project Q3934548 in Hungary

    Statements

    0 references
    0 references
    14,328,346 forint
    0 references
    39,620.89 Euro
    0.00276521 Euro
    3 December 2021
    0 references
    71,215.152 Euro
    0.0027336256 Euro
    15 December 2021
    0 references
    26,051,538.182 forint
    0 references
    54.999998 percent
    0 references
    23 July 2020
    0 references
    31 July 2021
    0 references
    AUTÓ-BAUMGARTNER Kereskedelmi és Szolgáltató Korlátolt Felelősségű Társaság
    0 references
    0 references

    47°13'44.83"N, 16°37'7.54"E
    0 references
    Az építtető a fenti címen napelemes energiatermelő rendszert kíván kiépíteni. A tervezé - si feladat ezen rendszer villamos engedélyezési tervének elkészítése. Építtető a fenti címen 49,58 kWp névleges teljesítményű napelemes energiatermelő rend szert kíván kiépíteni - A napelemes kiserőmű a létesítmény KIF oldalára csatlakozik, a hálózatra való termeléssel. Így a megtermelt villamos energia gyakorlatilag csak a létesítmény fogyasztás csökkentésére alkalmas. Mivel a rendszer visszatáplál a közcélú hálózatra a létesítése nem építési engedély-köteles tevékenység. Üzembe helyezése a védelmi készülékek koordinációjával, az MSZ EN 50160:2010/A1:2015 Üzemi feszültség: 3F + N, 400/230V, 50 Hz Érintésvédelem: nullázás (TN rendszer +EPH) Napelemes kiserőmű névleges teljesítménye 49,58 kWp 3.1 Napelemek: Az erre kijelölt helyen (lásd: helyszínrajzot) elhelyezett napelemek kapcsai között fény hatására villamos egyenfeszültség jelenik meg. Az alkalmazott napelemek villamos adatai: Megnevezése, Gyártó: Luxor Solar Gmbh Típusa: ECO LINE M72/370 W Névleges teljesítmény (Pmax) 370 [W] Üresjárati feszültség (Voc) 47,58 [V] Rövidzárlati áram (Isc) 10,07 [A] Feszültség max. teljesítmény esetén (Vmp) 39,35 [V] Áramerősség max. teljesítmény esetén (Imp) 9,54 [A] Modul hatásfok (%) 19,66 Csatlakozó MC4 Mennyiség: 134 db A napelemes erőmű számára több terület is használható. A legoptimálisabb a lapos tetős, így az arra épített tartószerkezetre a napelemeket el lehet helyezni. A tető felület héjazata lemeztető, formája trapézlemez. A napelemek rögzítési technológiája: K2 MiniRail sett alumínium sín trapézlemezhez, amit csavarkötéssel rögzítünk a lemezhez. A csavart kültéri, UV álló gumi szigeteléssel ellátott, öntömítő technológia. A sínen MiniClamp MC rögzítővel kerül felrögzítésre a napelem. 3.2 Inverter egység A stringek kapcsain megjelenő egyenfeszültséget több inverter egység alakítja 230/400V 50Hz-es váltakozó feszültséggé, ami szinkronban van az áramszolgáltatói feszültséggel. A be rendezés folyamatosan figyeli és szabályozza a leadott teljesítményt. A berendezés harmonikus torzítása jóval a megengedett érték alatt van, így nem szennyezi a hálózatot. A rendszer teljesen automatikusan üzemel. Amikor az inverter bemenetén a string feszültség eléri a beállított bekapcsolási értéket, az inverter bekapcsol. Hálózati szinkron megszűnése (táplálás kimaradás) esetén az inverter azonnal leválik a hálózatról, zárlatra nem táplál rá, szigetüzemben nem képes működni. Az invertert a hálózattal együttműködő üzemmódra tervezték. A lekapcsolás biztonságossága, ill. a sziget-üzem kialakulásának veszélye érdekében az inverter független megszakító rendszerrel van ellátva. A két egymástól teljesen független galvanikus leválasztást biztosító megszakító rendszer logikailag egymással sorba van kapcsolva. A megszakító rendszer az inverter váltakozó áramú oldalán van elhelyezve, kialakítása olyan, hogy a beépítés helyén fellépő zárlati áramot károsodás nélkül képes elviselni. (Hungarian)
    0 references
    The developer intends to build a solar power generation system at the above address. The design — si task is to prepare the electrical licensing plan for this system. The builder intends to build a solar power generation system with a nominal capacity of 49.58 kWp at the above address — The small solar power plant is connected to the KIF side of the installation, with production to the grid. Thus, the electricity produced is, in practice, only capable of reducing the consumption of the installation. As the system regenerates the public network, the construction of the system is not an activity subject to building permit. Commissioning with the coordination of protective devices, MSZ EN 50160:2010/A1:2015 Operating voltage: 3F + N, 400/230V, 50 Hz Touch protection: zeroing (TN system +EPH) The rated power of a small solar power plant is 49.58 kWp 3.1 Solar panels: At the designated place (see: location drawing) between the terminals of solar panels placed in the light is exposed to electric DC voltage. Electrical data of the solar panels used: Name, Manufacturer: Luxor Solar Gmbh Type: Eco LINE M72/370 W Rated power (Pmax) 370 [W] Empty voltage (Voc) 47.58 [V] Short circuit current (Isc) 10.07 [A] Voltage for max. power (Vmp) 39.35 [V] Current strength (Imp) 9.54 [A] Module efficiency (%) 19.66 Connecting MC4: 134 Pcs The solar power plant can be used in several areas. The most optimal is the flat roof, so the solar panels can be placed on the support structure built on it. The roof surface shellthe plate roof, form trapezoidal plate. Solar panel fastening technology: K2 MiniRail sett for aluminum rail trapezoidal plate, which is fastened to the plate by screw bond. The screw is a self-sealing technology with outdoor UV standing rubber insulation. On the rail, the solar panel is mounted with a MiniClamp MC fastener. 3.2 Inverter unit The DC voltage at the terminals of the strings is converted by several inverter units to an alternating voltage of 230/400V 50 Hz, which is synchronised with the power supply voltage. The setup continuously monitors and controls the output. The harmonic distortion of the equipment is well below the allowed value, so it does not contaminate the network. The system is fully automatic. When the string voltage at the inverter input reaches the set turn-on value, the inverter turns on. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not feed it to lockdown, it is not able to operate in isolated operation. The inverter is designed for network-cooperative mode. The inverter is equipped with an independent circuit breaker system to ensure the safety of disconnection and the risk of island operation. The circuit breaker system providing the two completely independent galvanic separations is logically connected to each other. The circuit breaker system is located on the AC side of the inverter and is designed in such a way that it can withstand the fault current at the installation site without damage. (English)
    8 February 2022
    0 references
    Szombathely, Vas
    0 references

    Identifiers

    GINOP-4.1.4-19-2020-01260
    0 references