Energy development in Felicita 2004. Catering and Trade Ltd. (Q3935778): Difference between revisions
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(Removed claim: summary (P836): Within the framework of the development, a simplified energy development will be carried out with the installation of a solar system with a capacity of 39.01 kWh. The technical parameters of the system can be described by: Installation of 94 pieces of Canadian Solar solar panels together with 2 pcs SolarEdge S E17 k Inverter with additional mounting materials The products to be installed are among the latest, most innovative technologies, sma...) |
(Changed an Item: Adding English translations) |
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| Property / summary | |||||||||||||||
Within the framework of the development, a simplified energy development will be carried out with the installation of a solar system with a capacity of 39.01 kWh. The technical parameters of the system can be described by: Installation of 94 pieces of Canadian Solar solar panels together with 2 pcs SolarEdge S E17 k Inverter with additional mounting materials The products to be installed are among the latest, most innovative technologies, smaller than the average products available on the market. The designed 94 Canadian Solar solar modules will be installed on the support structure fixed to the roof of the building, according to the module layout. The designed inverter is made of SolarEdge, SE 17 K, 3-phase, network regenerated. The inverter complies with all relevant standards requirements. It is possible to place it inside the building, next to the main tram distributor, mounted on the wall. The planned solar panel distribution includes: DC side per string: Overvoltage protection (T1-T2) on AC side: Overvoltage protection (T1-T2), overcurrent protection, main switch The system is fully automatic. When the input voltage of the inverter reaches the set turn-on value, the inverter is connected to the network. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not power on shutdown, it is not able to operate in isolated operation. The above conditions are provided by a circuit breaker system providing galvanic separation on the AC side, which is operated by the protection system built into the inverter. The protection continuously monitors the electrical parameters of the connection point (frequency, voltage, impedance) and operates the circuit break system in the event of a subsequent failure on the public network, on the user’s network or in the generating equipment. The fault-breaking capability of the switchgear used ensures that the lock at the installation site can withstand lati current without damage. The following preparatory activities were carried out under the project: The company contacted the energetician, with regard to the development site, after mapping the consumption data for the last three years, the direction of development was outlined. Subsequently, construction companies were contacted in order to map the market price and the available quality. The technical content of the development was determined taking into account the tenders, technical content and prices received. Static buildings have been examined, the statement has been completed. In the framework of the project, costs will only be declared in connection with the installation of the solar system. The implementation process includes the following activities — the whole process is carried out as follows in order to realise the eligible costs: At the same time as the contract is concluded, the service provider’s administration (application notification) and the connection documentation are submitted. After the acceptance of the service provider, the implementation will be carried out. Once reported to the supplier, the AD-VESZ meter is installed and the payroll is accounted for. Upon completion of the implementation, the contractor issues a final invoice, the project is closed and the accounts are made. Further information is attached hereto. (English) | |||||||||||||||
| Property / summary: Within the framework of the development, a simplified energy development will be carried out with the installation of a solar system with a capacity of 39.01 kWh. The technical parameters of the system can be described by: Installation of 94 pieces of Canadian Solar solar panels together with 2 pcs SolarEdge S E17 k Inverter with additional mounting materials The products to be installed are among the latest, most innovative technologies, smaller than the average products available on the market. The designed 94 Canadian Solar solar modules will be installed on the support structure fixed to the roof of the building, according to the module layout. The designed inverter is made of SolarEdge, SE 17 K, 3-phase, network regenerated. The inverter complies with all relevant standards requirements. It is possible to place it inside the building, next to the main tram distributor, mounted on the wall. The planned solar panel distribution includes: DC side per string: Overvoltage protection (T1-T2) on AC side: Overvoltage protection (T1-T2), overcurrent protection, main switch The system is fully automatic. When the input voltage of the inverter reaches the set turn-on value, the inverter is connected to the network. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not power on shutdown, it is not able to operate in isolated operation. The above conditions are provided by a circuit breaker system providing galvanic separation on the AC side, which is operated by the protection system built into the inverter. The protection continuously monitors the electrical parameters of the connection point (frequency, voltage, impedance) and operates the circuit break system in the event of a subsequent failure on the public network, on the user’s network or in the generating equipment. The fault-breaking capability of the switchgear used ensures that the lock at the installation site can withstand lati current without damage. The following preparatory activities were carried out under the project: The company contacted the energetician, with regard to the development site, after mapping the consumption data for the last three years, the direction of development was outlined. Subsequently, construction companies were contacted in order to map the market price and the available quality. The technical content of the development was determined taking into account the tenders, technical content and prices received. Static buildings have been examined, the statement has been completed. In the framework of the project, costs will only be declared in connection with the installation of the solar system. The implementation process includes the following activities — the whole process is carried out as follows in order to realise the eligible costs: At the same time as the contract is concluded, the service provider’s administration (application notification) and the connection documentation are submitted. After the acceptance of the service provider, the implementation will be carried out. Once reported to the supplier, the AD-VESZ meter is installed and the payroll is accounted for. Upon completion of the implementation, the contractor issues a final invoice, the project is closed and the accounts are made. Further information is attached hereto. (English) / rank | |||||||||||||||
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| Property / summary: Within the framework of the development, a simplified energy development will be carried out with the installation of a solar system with a capacity of 39.01 kWh. The technical parameters of the system can be described by: Installation of 94 pieces of Canadian Solar solar panels together with 2 pcs SolarEdge S E17 k Inverter with additional mounting materials The products to be installed are among the latest, most innovative technologies, smaller than the average products available on the market. The designed 94 Canadian Solar solar modules will be installed on the support structure fixed to the roof of the building, according to the module layout. The designed inverter is made of SolarEdge, SE 17 K, 3-phase, network regenerated. The inverter complies with all relevant standards requirements. It is possible to place it inside the building, next to the main tram distributor, mounted on the wall. The planned solar panel distribution includes: DC side per string: Overvoltage protection (T1-T2) on AC side: Overvoltage protection (T1-T2), overcurrent protection, main switch The system is fully automatic. When the input voltage of the inverter reaches the set turn-on value, the inverter is connected to the network. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not power on shutdown, it is not able to operate in isolated operation. The above conditions are provided by a circuit breaker system providing galvanic separation on the AC side, which is operated by the protection system built into the inverter. The protection continuously monitors the electrical parameters of the connection point (frequency, voltage, impedance) and operates the circuit break system in the event of a subsequent failure on the public network, on the user’s network or in the generating equipment. The fault-breaking capability of the switchgear used ensures that the lock at the installation site can withstand lati current without damage. The following preparatory activities were carried out under the project: The company contacted the energetician, with regard to the development site, after mapping the consumption data for the last three years, the direction of development was outlined. Subsequently, construction companies were contacted in order to map the market price and the available quality. The technical content of the development was determined taking into account the tenders, technical content and prices received. Static buildings have been examined, the statement has been completed. In the framework of the project, costs will only be declared in connection with the installation of the solar system. The implementation process includes the following activities — the whole process is carried out as follows in order to realise the eligible costs: At the same time as the contract is concluded, the service provider’s administration (application notification) and the connection documentation are submitted. After the acceptance of the service provider, the implementation will be carried out. Once reported to the supplier, the AD-VESZ meter is installed and the payroll is accounted for. Upon completion of the implementation, the contractor issues a final invoice, the project is closed and the accounts are made. Further information is attached hereto. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:56, 8 February 2022
Project Q3935778 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Energy development in Felicita 2004. Catering and Trade Ltd. |
Project Q3935778 in Hungary |
Statements
12,000,000 forint
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21,818,181.818 forint
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55.0 percent
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1 January 2021
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30 September 2022
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FELICITA 2004. Vendéglátó és Kereskedelmi Korlátolt Felelősségű Társaság
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47°13'44.83"N, 16°37'7.54"E
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A fejlesztés keretében egyszerűsített energetika fejlesztés megvalósítására kerül sor, 39,01 kWh teljesítményű napelemes rendszer telepítésével. A rendszer műszaki paraméterei az alábbiakkal mutathatók be: 94 darab Canadian Solar gyártmányú napelem telepítése 2 db Solaredge S E17 k Inverter hozzá tartozó kiegészítő szerelési anyagokkal együtt A beépítésre kerülő termékek a legújabb, leginnovatívabb technológiák közé tartoznak, mérete kisebb a piacon elérhető átlagos termékekhez képest. A tervezett 94 db Canadian Solar gyártmányú napelem modul az épület tetőszerkezetére rögzített tartószerkezetre, a modulkiosztás szerint kerül telepítésre. A tervezett inverter SolarEdge gyártmányú, SE 17 K típusú, 3 fázisú, hálózati visszatáplálású. Az inverter megfelel valamennyi vonatkozó szabványelvárásnak. Elhelyezése épületen belül, a villamos főelosztó mellett, falra szerelve lehetséges. A tervezett napelem elosztó tartalmazza: DC oldalon sztringenként: Túlfeszültség védelem (T1-T2) AC oldalon: Túlfeszültség védelem (T1-T2), túláram védelem, főkapcsoló A rendszer teljesen automatikusan üzemel. Amikor az inverter bemeneti feszültsége eléri a beállított bekapcsolási értéket, az inverter hálózatra kapcsolódik. Hálózati szinkron megszűnése (táplálás kimaradás) esetén az inverter azonnal leválik a hálózatról, zárlatra nem táplál, szigetüzemben nem képes működni . A fenti feltételeket az AC oldalon galvanikus leválasztást biztosító megszakító rendszer biztosítja, amit az inverterbe épített védelmi rendszer működtet. A védelem folyamatosan figyeli a csatlakozási pont villamos paramétereit (frekvencia, feszültség, impedancia), és a közcélú hálózaton, a felhasználó hálózatán vagy a termelő berendezésben be következő hiba esetén működteti a megszakít ó rendszert. Az alkalmazott kapcsolóberendezés zárlati megszakító képessége biztosítja, hogy a beépítés helyén fellépő zár lati áramot károsodás nélkül elviselje. A projekt keretében az alábbi előkészítő tevékenységek megvalósítására került sor: A vállalkozás felvette a kapcsolatot energetikussal, a fejlesztési helyszín vonatkozásában az elmúlt három év fogyasztási adatainak feltérképezése után körvonalazódott a fejlesztés irányvonala. Ezt követően került sor kivitelező vállalkozások megkeresésére a piaci ár valamint elérhető minőségek feltérképezése tekintetében. A beérkezett ajánlatok, műszaki tartalom, árak figyelembe vételével került sor a fejlesztés műszaki tartalmának meghatározására. Statikus az épületeket megvizsgálta, a nyilatkozat elkészült. A projekt keretében csak a napelemes rendszer telepítésével kapcsolatban kerül költség elszámolásra. A kivitelezés menete az alábbi tevékenységeket tartalmazza – a teljes folyamat az elszámolható költségek megvalósítása érdekében az alábbiak szerint zajlik: A vállalkozói szerződés megkötésével egyidőben megtörténik a szolgáltatói ügyintézés (igénybejelentés) valamint a csatlakozási dokumentáció benyújtása. A szolgáltató elfogadó válaszát követően kerül sor a kivitelezés megvalósítására. A szolgáltató felé történő készre jelentés után kerül sor az AD-VESZ fogyasztásmérő felszerelésére és a szaldó elszámolásra. A kivitelezés lezárultával a vállalkozó végszámlát állít ki, a projekt lezárul, az elszámolás megtörténik. További ismertető mellékelten csatolva. (Hungarian)
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Within the framework of the development, a simplified energy development will be carried out with the installation of a solar system with a capacity of 39.01 kWh. The technical parameters of the system can be described by: Installation of 94 pieces of Canadian Solar solar panels together with 2 pcs SolarEdge S E17 k Inverter with additional mounting materials The products to be installed are among the latest, most innovative technologies, smaller than the average products available on the market. The designed 94 Canadian Solar solar modules will be installed on the support structure fixed to the roof of the building, according to the module layout. The designed inverter is made of SolarEdge, SE 17 K, 3-phase, network regenerated. The inverter complies with all relevant standards requirements. It is possible to place it inside the building, next to the main tram distributor, mounted on the wall. The planned solar panel distribution includes: DC side per string: Overvoltage protection (T1-T2) on AC side: Overvoltage protection (T1-T2), overcurrent protection, main switch The system is fully automatic. When the input voltage of the inverter reaches the set turn-on value, the inverter is connected to the network. In case of network synchronous failure (power outage), the inverter is disconnected immediately from the network, it does not power on shutdown, it is not able to operate in isolated operation. The above conditions are provided by a circuit breaker system providing galvanic separation on the AC side, which is operated by the protection system built into the inverter. The protection continuously monitors the electrical parameters of the connection point (frequency, voltage, impedance) and operates the circuit break system in the event of a subsequent failure on the public network, on the user’s network or in the generating equipment. The fault-breaking capability of the switchgear used ensures that the lock at the installation site can withstand lati current without damage. The following preparatory activities were carried out under the project: The company contacted the energetician, with regard to the development site, after mapping the consumption data for the last three years, the direction of development was outlined. Subsequently, construction companies were contacted in order to map the market price and the available quality. The technical content of the development was determined taking into account the tenders, technical content and prices received. Static buildings have been examined, the statement has been completed. In the framework of the project, costs will only be declared in connection with the installation of the solar system. The implementation process includes the following activities — the whole process is carried out as follows in order to realise the eligible costs: At the same time as the contract is concluded, the service provider’s administration (application notification) and the connection documentation are submitted. After the acceptance of the service provider, the implementation will be carried out. Once reported to the supplier, the AD-VESZ meter is installed and the payroll is accounted for. Upon completion of the implementation, the contractor issues a final invoice, the project is closed and the accounts are made. Further information is attached hereto. (English)
8 February 2022
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Szombathely, Vas
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Identifiers
GINOP-4.1.4-19-2020-02961
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