Installation of solar system at LI-KONT Kft. _x000D_ (Q3935467): Difference between revisions
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As part of the development, a solar panel system will be installed on the roof of the building with a capacity of 49.5 kW. The expected electricity production is 54 450 kWh/year General description of the new installation The roof of the building trapezoidal plate is 165 solar panels according to the installation drawing in Annex 1. The solar cable is installed under the solar panels in a duct channel. The electricity produced by solar panels is fed into the internal 0.4 kV network. In case the internal consumption is less than the instantaneous production, the excess energy is fed into the ELMŰ network. If the total instantaneous consumption of the system is less than the production, then the data of the ad-take meter at the connection point to the ELMŰ network will be accounted for. Solar panels: The 300 Wp polykrstantan solar panels are 1650 x 992 x 35 mm each. The built-in 165 solar panels (165 pcs 300 Wp) have a total power of 49.5 kWp. The data sheet for built-in solar panels is set out in Annex 2. Inverters: The inverter used is a device without a high-efficiency transformer. Comply with the standards laid down in the distribution code. Structures: An affixing system with either a manufacturer’s certificate of conformity or a specific static declaration may be applied to the inclined roof. The fastening elements are made of aluminium. Technical parameters of the machines designed for the power plant Solar Panel Type: Suntech STP 300-60/Wfh Rated Power: (Pmax) 300 W idle voltage: (VOC) 39.4 V short circuit current: (ISC) 9.62 The operating voltage: (VMP) 32,7 V working point price: (IMP) 9.18 A Mudol efficiency: (%) 17.8 % (In determining the above parameters the illumination is 1000 W/m², cell temperature 25 °C, AM 1.5.) Inverter Inverter Type: Saj Suntrio Plus 50K DC input data Minimum DC voltage: 250 V Maximum DC voltage: 1000 V MPP voltage range: 280-900 V AC input data Maximum output current: 80 Frequency range: 45-65 Hz Power factor (cos?): 0-1 Network connection: 3 NPE 400 V/230 V/3 NPE 380 V/220 V Maximum efficiency: 98.8 % Euro efficiency: 98.5 % Night Consumption: < 1 W Degree of Protection: IP 65 General data Dimensions (M x R x H): 800x550x280 mm Weight: 68 kg Permissible heat range: —25 to + 60 °C Permissible humidity: 0-100 % Deviation from the above equipment for the demonstration of technical equivalence. Types of cable used to wiring solar panels between themselves and on an inverter: Type: General Cavi PV1-F UV Standing Solar Copper Cable Driving Material: Copper (Cu) Insulation Material: Ethylene propylene rubber insulation External sheath: Polypropylene rubber Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Connecting Inverters to Main Distributor Type: FG7OR 0.6/1 kV Leading material: Copper (Cu) Insulation Material: Hard ethylene propylene rubber insulation External sheath: PVC Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Monitoring system design The technical parameters of the solar system are continuously monitored by the inverter. In the event that any parameter is outside the permitted band, it gives an error signal. The inverter includes a WIFI card through which it is connected to the building’s internal internet network. Data is collected continuously within the inverter regardless of the network connection. (English) | |||||||||||||||
| Property / summary: As part of the development, a solar panel system will be installed on the roof of the building with a capacity of 49.5 kW. The expected electricity production is 54 450 kWh/year General description of the new installation The roof of the building trapezoidal plate is 165 solar panels according to the installation drawing in Annex 1. The solar cable is installed under the solar panels in a duct channel. The electricity produced by solar panels is fed into the internal 0.4 kV network. In case the internal consumption is less than the instantaneous production, the excess energy is fed into the ELMŰ network. If the total instantaneous consumption of the system is less than the production, then the data of the ad-take meter at the connection point to the ELMŰ network will be accounted for. Solar panels: The 300 Wp polykrstantan solar panels are 1650 x 992 x 35 mm each. The built-in 165 solar panels (165 pcs 300 Wp) have a total power of 49.5 kWp. The data sheet for built-in solar panels is set out in Annex 2. Inverters: The inverter used is a device without a high-efficiency transformer. Comply with the standards laid down in the distribution code. Structures: An affixing system with either a manufacturer’s certificate of conformity or a specific static declaration may be applied to the inclined roof. The fastening elements are made of aluminium. Technical parameters of the machines designed for the power plant Solar Panel Type: Suntech STP 300-60/Wfh Rated Power: (Pmax) 300 W idle voltage: (VOC) 39.4 V short circuit current: (ISC) 9.62 The operating voltage: (VMP) 32,7 V working point price: (IMP) 9.18 A Mudol efficiency: (%) 17.8 % (In determining the above parameters the illumination is 1000 W/m², cell temperature 25 °C, AM 1.5.) Inverter Inverter Type: Saj Suntrio Plus 50K DC input data Minimum DC voltage: 250 V Maximum DC voltage: 1000 V MPP voltage range: 280-900 V AC input data Maximum output current: 80 Frequency range: 45-65 Hz Power factor (cos?): 0-1 Network connection: 3 NPE 400 V/230 V/3 NPE 380 V/220 V Maximum efficiency: 98.8 % Euro efficiency: 98.5 % Night Consumption: < 1 W Degree of Protection: IP 65 General data Dimensions (M x R x H): 800x550x280 mm Weight: 68 kg Permissible heat range: —25 to + 60 °C Permissible humidity: 0-100 % Deviation from the above equipment for the demonstration of technical equivalence. Types of cable used to wiring solar panels between themselves and on an inverter: Type: General Cavi PV1-F UV Standing Solar Copper Cable Driving Material: Copper (Cu) Insulation Material: Ethylene propylene rubber insulation External sheath: Polypropylene rubber Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Connecting Inverters to Main Distributor Type: FG7OR 0.6/1 kV Leading material: Copper (Cu) Insulation Material: Hard ethylene propylene rubber insulation External sheath: PVC Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Monitoring system design The technical parameters of the solar system are continuously monitored by the inverter. In the event that any parameter is outside the permitted band, it gives an error signal. The inverter includes a WIFI card through which it is connected to the building’s internal internet network. Data is collected continuously within the inverter regardless of the network connection. (English) / rank | |||||||||||||||
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| Property / summary: As part of the development, a solar panel system will be installed on the roof of the building with a capacity of 49.5 kW. The expected electricity production is 54 450 kWh/year General description of the new installation The roof of the building trapezoidal plate is 165 solar panels according to the installation drawing in Annex 1. The solar cable is installed under the solar panels in a duct channel. The electricity produced by solar panels is fed into the internal 0.4 kV network. In case the internal consumption is less than the instantaneous production, the excess energy is fed into the ELMŰ network. If the total instantaneous consumption of the system is less than the production, then the data of the ad-take meter at the connection point to the ELMŰ network will be accounted for. Solar panels: The 300 Wp polykrstantan solar panels are 1650 x 992 x 35 mm each. The built-in 165 solar panels (165 pcs 300 Wp) have a total power of 49.5 kWp. The data sheet for built-in solar panels is set out in Annex 2. Inverters: The inverter used is a device without a high-efficiency transformer. Comply with the standards laid down in the distribution code. Structures: An affixing system with either a manufacturer’s certificate of conformity or a specific static declaration may be applied to the inclined roof. The fastening elements are made of aluminium. Technical parameters of the machines designed for the power plant Solar Panel Type: Suntech STP 300-60/Wfh Rated Power: (Pmax) 300 W idle voltage: (VOC) 39.4 V short circuit current: (ISC) 9.62 The operating voltage: (VMP) 32,7 V working point price: (IMP) 9.18 A Mudol efficiency: (%) 17.8 % (In determining the above parameters the illumination is 1000 W/m², cell temperature 25 °C, AM 1.5.) Inverter Inverter Type: Saj Suntrio Plus 50K DC input data Minimum DC voltage: 250 V Maximum DC voltage: 1000 V MPP voltage range: 280-900 V AC input data Maximum output current: 80 Frequency range: 45-65 Hz Power factor (cos?): 0-1 Network connection: 3 NPE 400 V/230 V/3 NPE 380 V/220 V Maximum efficiency: 98.8 % Euro efficiency: 98.5 % Night Consumption: < 1 W Degree of Protection: IP 65 General data Dimensions (M x R x H): 800x550x280 mm Weight: 68 kg Permissible heat range: —25 to + 60 °C Permissible humidity: 0-100 % Deviation from the above equipment for the demonstration of technical equivalence. Types of cable used to wiring solar panels between themselves and on an inverter: Type: General Cavi PV1-F UV Standing Solar Copper Cable Driving Material: Copper (Cu) Insulation Material: Ethylene propylene rubber insulation External sheath: Polypropylene rubber Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Connecting Inverters to Main Distributor Type: FG7OR 0.6/1 kV Leading material: Copper (Cu) Insulation Material: Hard ethylene propylene rubber insulation External sheath: PVC Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Monitoring system design The technical parameters of the solar system are continuously monitored by the inverter. In the event that any parameter is outside the permitted band, it gives an error signal. The inverter includes a WIFI card through which it is connected to the building’s internal internet network. Data is collected continuously within the inverter regardless of the network connection. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:55, 8 February 2022
Project Q3935467 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Installation of solar system at LI-KONT Kft. _x000D_ |
Project Q3935467 in Hungary |
Statements
13,810,500 forint
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25,110,000.0 forint
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55.0 percent
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4 January 2021
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31 December 2021
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LI-KONT Építőipari és Szolgáltató Korlátolt Felelősségű Társaság
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48°11'25.12"N, 19°39'38.05"E
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A fejlesztés keretében az épület tetejére napelemes rendszer kerül telepítésre 49,5kW teljesítménnyel. A várható villamos energia termelés 54 450kWh/év Az új létesítmény általános ismertetése Az épület trapéz lemez tetejére 165 db napelem kerül az 1. számú melléklet elhelyezési rajza alapján. A szolár kábel a napelemek alatt vezetékcsatornában kerül telepítésre. A napelemek által termelt villamos energia a belső 0,4 kV-os hálózatába kerül betáplálásra. Abban az esetben, ha a belső fogyasztás kisebb mint a pillanatnyi termelés, akkor a többlet energia kitáplálásra kerül az ELMŰ hálózatába. Ha a rendszer teljes pillanatnyi fogyasztása kisebb mint a termelés, akkor az ELMŰ hálózatra történő csatlakozási ponton lévő ad-vesz mérő adatai alapján történik az elszámolás. Napelemek: A 300 Wp polykrstályos napelemek egyenként 1650 x 992 x 35 mm méretűek. A beépített 165 db napelem (165 db 300 Wp) összes teljesítménye 49,5 kWp. A beépített napelemek adatlapját a 2. sz. melléklet tartalmazza. Inverterek: Az alkalmazott inverter magas hatásfokú transzformátor nélküli berendezés. Teljesíti az elosztói szabályzatban rögzített szabványok előírásait. Szerkezetek: A ferde tetőre vagy gyártói megfelelőségi bizonylattal, vagy egyedi statikai nyilatkozattal rendelkező rögzítési rendszert lehet alkalmazni. A rögzítő elemek alumíniumból készülnek. Az erőműbe tervezett gépek műszaki paraméterei Napelem Típus: Suntech STP 300-60/Wfh Névleges teljesítmény: (Pmax) 300 W Üresjárási feszültség: (Voc) 39,4 V Rövidzárási áram: (Isc) 9,62 A Munkaponti feszültség: (Vmp) 32,7 V Munkaponti ára: (Imp) 9,18 A Mudolhatásfok: (%) 17,8 % (A fenti paraméterek meghatározása során a megvilágítás 1000 W/m2, cellahőmérséklet 25 °C, AM 1,5.) Inverter Inverterek típusa: SAJ Suntrio Plus 50K DC bemeneti adatok Minimális DC feszültség: 250 V Maximális DC feszültség: 1000 V MPP feszültségtartomány: 280-900 V AC bemeneti adatok Maximális kimeneti áram: 80 A Frekvencia tartomány: 45-65 Hz Teljesítmény tényező (cos ?): 0-1 Hálózati csatlakozás: 3 NPE 400 V/230 V / 3 NPE 380 V/220 V Maximális hatékonyság: 98,8% Euro hatékonyság: 98,5% Éjjeli fogyasztás: < 1 W Védelem foka: IP 65 Általános adatok Méretek (M x SZ x H): 800x550x280 mm Súly: 68 kg Megengedett hőm. tartomány: -25 - +60 °C Megengedett páratartalom: 0-100% A fenti berendezésektől a műszaki egyenértékűség igazolása esetében el lehet térni. Alkalmazott kábel típusok Napelemek egymás közötti és inverterig történő kábelezése: Típus: General Cavi PV1-F UV álló Solar rézkábel Vezető anyaga: Réz (Cu) Szigetelés anyaga: Etilén-propilén gumiszigetelés Külső köpeny: Polipropilén-kaucsuk Vezető ér kialakítása: Sodrott körszelvényű (RM) Feszültség (Uo/U): 600/1000 V Inverterek összekötése a főelosztóval Típus: FG7OR 0,6/1 kV Vezető anyaga: Réz (Cu) Szigetelés anyaga: Kemény etilén-propilén gumiszigetelés Külső köpeny: PVC Vezető ér kialakítása: Sodrott körszelvényű (RM) Feszültség (Uo/U): 600/1000 V Felügyeleti rendszer kialakítása A napelemes rendszer műszaki paramétereit az inverter folyamatosan ellenőrzi. Abban az esetben, ha bármilyen paraméter a megengedett sávon kívülre kerül, akkor hibajelzést ad. Az inverter tartalmaz egy WIFI kártyát, amelyen keresztül kapcsolódik az épület belső internet hálózatához. Az adatgyűjtés az inverteren belül a hálózati kapcsolattól függetlenül folyamatosan történik. (Hungarian)
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As part of the development, a solar panel system will be installed on the roof of the building with a capacity of 49.5 kW. The expected electricity production is 54 450 kWh/year General description of the new installation The roof of the building trapezoidal plate is 165 solar panels according to the installation drawing in Annex 1. The solar cable is installed under the solar panels in a duct channel. The electricity produced by solar panels is fed into the internal 0.4 kV network. In case the internal consumption is less than the instantaneous production, the excess energy is fed into the ELMŰ network. If the total instantaneous consumption of the system is less than the production, then the data of the ad-take meter at the connection point to the ELMŰ network will be accounted for. Solar panels: The 300 Wp polykrstantan solar panels are 1650 x 992 x 35 mm each. The built-in 165 solar panels (165 pcs 300 Wp) have a total power of 49.5 kWp. The data sheet for built-in solar panels is set out in Annex 2. Inverters: The inverter used is a device without a high-efficiency transformer. Comply with the standards laid down in the distribution code. Structures: An affixing system with either a manufacturer’s certificate of conformity or a specific static declaration may be applied to the inclined roof. The fastening elements are made of aluminium. Technical parameters of the machines designed for the power plant Solar Panel Type: Suntech STP 300-60/Wfh Rated Power: (Pmax) 300 W idle voltage: (VOC) 39.4 V short circuit current: (ISC) 9.62 The operating voltage: (VMP) 32,7 V working point price: (IMP) 9.18 A Mudol efficiency: (%) 17.8 % (In determining the above parameters the illumination is 1000 W/m², cell temperature 25 °C, AM 1.5.) Inverter Inverter Type: Saj Suntrio Plus 50K DC input data Minimum DC voltage: 250 V Maximum DC voltage: 1000 V MPP voltage range: 280-900 V AC input data Maximum output current: 80 Frequency range: 45-65 Hz Power factor (cos?): 0-1 Network connection: 3 NPE 400 V/230 V/3 NPE 380 V/220 V Maximum efficiency: 98.8 % Euro efficiency: 98.5 % Night Consumption: < 1 W Degree of Protection: IP 65 General data Dimensions (M x R x H): 800x550x280 mm Weight: 68 kg Permissible heat range: —25 to + 60 °C Permissible humidity: 0-100 % Deviation from the above equipment for the demonstration of technical equivalence. Types of cable used to wiring solar panels between themselves and on an inverter: Type: General Cavi PV1-F UV Standing Solar Copper Cable Driving Material: Copper (Cu) Insulation Material: Ethylene propylene rubber insulation External sheath: Polypropylene rubber Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Connecting Inverters to Main Distributor Type: FG7OR 0.6/1 kV Leading material: Copper (Cu) Insulation Material: Hard ethylene propylene rubber insulation External sheath: PVC Leading vein design: Twisted circular section (RM) Voltage (Uo/U): 600/1000 V Monitoring system design The technical parameters of the solar system are continuously monitored by the inverter. In the event that any parameter is outside the permitted band, it gives an error signal. The inverter includes a WIFI card through which it is connected to the building’s internal internet network. Data is collected continuously within the inverter regardless of the network connection. (English)
8 February 2022
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Egyházasgerge, Nógrád
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Identifiers
GINOP-4.1.4-19-2020-02568
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