Energy development at Akmé Kft. (Q3933744): Difference between revisions
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Within the framework of the development, a simplified energy development will be carried out with the installation of a 16.2 kWh solar panel system. The technical parameters of the system can be described by: Installation of 52 pieces of Canadian Solar 300 Wp POLY Perc Technology solar panel 1 pcs Fronis SYMO 15.0-3 S+ Wi-Fi — inverter together with its 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 half-cell design of cut cell solar panel reduces cell tensions in the real application environment, reducing the chances of micro-cracking. It means halving the current through the cell and making more efficient use of the incident light. Minute (Passivated Emitter and Rear Cell) technology means that a dielectric aluminium conductive layer is applied to the back of the cells, which helps to reflect some of the light that has passed through the cell — and has so far absorbed in the laminate film — reflecting it back into the process of generating electricity. This allows a yield of about 6 % higher on the same surface. With PERC technology, improved absorption of long-waves develops in addition to the achieved performance growth. The dielectric layer effectively reflects infrared beams with wavelengths greater than 1000 nm, making them “available”. In the dawn, dusk, or cloudy seasons, light beams with higher wavelengths are present, and since they can be utilised by the PERC solar panel with better efficiency, it delivers more power in these periods than its traditional counterparts. 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. The static looked at the building, issued an expert statement. The modularisation was completed by examining the roof structure of the buildings. 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. The company has not previously implemented a tender using EU funding, but as a supplier, it has been involved in the implementation of numerous projects and therefore has the necessary knowledge of the administrative tasks. Further detailed presentation is attached in a separate document. (English) | |||||||||||||||
| Property / summary: Within the framework of the development, a simplified energy development will be carried out with the installation of a 16.2 kWh solar panel system. The technical parameters of the system can be described by: Installation of 52 pieces of Canadian Solar 300 Wp POLY Perc Technology solar panel 1 pcs Fronis SYMO 15.0-3 S+ Wi-Fi — inverter together with its 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 half-cell design of cut cell solar panel reduces cell tensions in the real application environment, reducing the chances of micro-cracking. It means halving the current through the cell and making more efficient use of the incident light. Minute (Passivated Emitter and Rear Cell) technology means that a dielectric aluminium conductive layer is applied to the back of the cells, which helps to reflect some of the light that has passed through the cell — and has so far absorbed in the laminate film — reflecting it back into the process of generating electricity. This allows a yield of about 6 % higher on the same surface. With PERC technology, improved absorption of long-waves develops in addition to the achieved performance growth. The dielectric layer effectively reflects infrared beams with wavelengths greater than 1000 nm, making them “available”. In the dawn, dusk, or cloudy seasons, light beams with higher wavelengths are present, and since they can be utilised by the PERC solar panel with better efficiency, it delivers more power in these periods than its traditional counterparts. 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. The static looked at the building, issued an expert statement. The modularisation was completed by examining the roof structure of the buildings. 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. The company has not previously implemented a tender using EU funding, but as a supplier, it has been involved in the implementation of numerous projects and therefore has the necessary knowledge of the administrative tasks. Further detailed presentation is attached in a separate document. (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 16.2 kWh solar panel system. The technical parameters of the system can be described by: Installation of 52 pieces of Canadian Solar 300 Wp POLY Perc Technology solar panel 1 pcs Fronis SYMO 15.0-3 S+ Wi-Fi — inverter together with its 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 half-cell design of cut cell solar panel reduces cell tensions in the real application environment, reducing the chances of micro-cracking. It means halving the current through the cell and making more efficient use of the incident light. Minute (Passivated Emitter and Rear Cell) technology means that a dielectric aluminium conductive layer is applied to the back of the cells, which helps to reflect some of the light that has passed through the cell — and has so far absorbed in the laminate film — reflecting it back into the process of generating electricity. This allows a yield of about 6 % higher on the same surface. With PERC technology, improved absorption of long-waves develops in addition to the achieved performance growth. The dielectric layer effectively reflects infrared beams with wavelengths greater than 1000 nm, making them “available”. In the dawn, dusk, or cloudy seasons, light beams with higher wavelengths are present, and since they can be utilised by the PERC solar panel with better efficiency, it delivers more power in these periods than its traditional counterparts. 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. The static looked at the building, issued an expert statement. The modularisation was completed by examining the roof structure of the buildings. 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. The company has not previously implemented a tender using EU funding, but as a supplier, it has been involved in the implementation of numerous projects and therefore has the necessary knowledge of the administrative tasks. Further detailed presentation is attached in a separate document. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
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Revision as of 21:35, 8 February 2022
Project Q3933744 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Energy development at Akmé Kft. |
Project Q3933744 in Hungary |
Statements
5,455,000 forint
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9,918,181.818 forint
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55.0 percent
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1 March 2020
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28 May 2022
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AKMÉ Kereskedelmi és Szolgáltató 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, 16,2 kWh teljesítményű napelemes rendszer telepítésével. A rendszer műszaki paraméterei az alábbiakkal mutathatók be: 52 darab Canadian Solar 300 Wp POLY Perc technológiájú napelem telepítése 1 db Fronis Symo 15.0-3 S + wifi – 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. Vágottcellás napelem felezett cellás kialakítása csökkenti a cellában fellépő feszültségeket a valós alkalmazási környezetben, miáltal csökken a mikro repedések kialakulásának esélye. A cellán áthaladó áramerősség felére csökkentését és a beeső fény hatékonyabb hasznosítását jelenti. PERC (Passivated Emitter and Rear Cell) technológia jelenti, hogy a cellák hátlapjára egy dielektromos alumínium vezetőréteget visznek fel, ami segít a cellán hasznosítatlanul áthaladó – és eddig a lamináló fóliában elnyelődött – fény egy részét visszatükrözni, visszavezetve azt az áramtermelés folyamatába. Ezáltal ugyanazon a felületen kb. 6%-kal magasabb hozamot érhetünk el. A PERC technológiával az elért teljesítmény növekedés mellett a hosszúhullámok jobb abszorpciója alakul ki. A dielektromos réteg hatékonyan tükrözi vissza az 1000 nm-nél hosszabb hullámhosszúságú infravörös fénysugarakat, így azok „hasznosíthatóvá” válnak. A hajnali, alkonyati vagy felhős időszakban inkább a nagyobb hullámhosszúságú fénysugarak vannak jelen, és mivel ezeket a PERC napelem jobb hatékonysággal tudja hasznosítani, ezekben az időszakokban nagyobb teljesítményt ad le, mint hagyományos társai. 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. A statikus az épületet megvizsgálta, szakértői nyilatkozatot kiállította. Az épületek tetőszerkezetét megvizsgálva készült el a modulkiosztás. 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. A vállalkozás korábban még nem valósított meg EU támogatás felhasználásával pályázatot, ugyanakkor mint beszállító részt vett számtalan projekt megvalósításában, az adminisztratív feladatok elvégzését illetően így megfelelő ismeretekkel rendelkezik. További részletes bemutatás külön dokumentumban 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 16.2 kWh solar panel system. The technical parameters of the system can be described by: Installation of 52 pieces of Canadian Solar 300 Wp POLY Perc Technology solar panel 1 pcs Fronis SYMO 15.0-3 S+ Wi-Fi — inverter together with its 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 half-cell design of cut cell solar panel reduces cell tensions in the real application environment, reducing the chances of micro-cracking. It means halving the current through the cell and making more efficient use of the incident light. Minute (Passivated Emitter and Rear Cell) technology means that a dielectric aluminium conductive layer is applied to the back of the cells, which helps to reflect some of the light that has passed through the cell — and has so far absorbed in the laminate film — reflecting it back into the process of generating electricity. This allows a yield of about 6 % higher on the same surface. With PERC technology, improved absorption of long-waves develops in addition to the achieved performance growth. The dielectric layer effectively reflects infrared beams with wavelengths greater than 1000 nm, making them “available”. In the dawn, dusk, or cloudy seasons, light beams with higher wavelengths are present, and since they can be utilised by the PERC solar panel with better efficiency, it delivers more power in these periods than its traditional counterparts. 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. The static looked at the building, issued an expert statement. The modularisation was completed by examining the roof structure of the buildings. 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. The company has not previously implemented a tender using EU funding, but as a supplier, it has been involved in the implementation of numerous projects and therefore has the necessary knowledge of the administrative tasks. Further detailed presentation is attached in a separate document. (English)
8 February 2022
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Szombathely, Vas
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Identifiers
GINOP-4.1.4-19-2019-00173
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