Construction of photovoltaic installations and associated infrastructure in Markus Texi Sp. J. (Q118560): Difference between revisions

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(‎Removed claim: summary (P836): The overall objective of the project is to increase the production of electricity from renewable sources and thus to reduce the greenhouse gas emissions to the atmosphere. The detailed objectives of the project are set out in Part 2.1 of the Feasibility Study. The object of the project is the supply and installation of the new PV infrastructure for the company Markus Texi, in Rzeszów. The system will cover 5 installations consisting of polycry...)
(‎Created claim: summary (P836): The overall objective of the project is to increase the production of electricity from renewable sources and thus reduce greenhouse gas emissions into the atmosphere. Detailed objectives of the project are presented in section 2.1 of the Feasibility Study. The subject of the project is the delivery and assembly of a new photovoltaic infrastructure for the needs of Markus Texi, in the town of Rzeszów. The system will include 5 installations consi...)
Property / summary
 
The overall objective of the project is to increase the production of electricity from renewable sources and thus reduce greenhouse gas emissions into the atmosphere. Detailed objectives of the project are presented in section 2.1 of the Feasibility Study. The subject of the project is the delivery and assembly of a new photovoltaic infrastructure for the needs of Markus Texi, in the town of Rzeszów. The system will include 5 installations consisting of polycrystalline modules for the production of electricity (with a total installed capacity of 198.80 kWp 5 x 39.76 kWp). Actions aimed at creating a renewable energy system are planned. The realisation of the material scope concerns the purchase and installation of photovoltaic installations, which will consist of the following elements. All planned infrastructure elements will be new. The basic elements of the planned installation are: — Photovoltaic modules 710 pieces: they transform solar energy into electricity, which is the result of the photovoltaic phenomenon. Number of modules pc. 710 (710 x 280 W = 198.80 kWp i.e. 0,19MWe). — Inverter – (5 x 2= 10 pieces) – an electrical device changing DC, which is produced by photovoltaic modules to alternating current (such as in the electrical outlet) and gives it the appropriate frequency. This device controls the transmission of electricity to the electrical grid and counts the energy produced by the modules. It’s a inverter. The mounting system – Roofing – Cableing- is responsible for transmitting electrical current from modules to the inverter and from the inverter to the electrical grid. — AC/DC electrical dividers – hermetic enclosures, in which the protection of the photovoltaic installation will be installed. — Monitoring system – it allows to track the current production of electricity from a photovoltaic installation and view archival data. (English)
Property / summary: The overall objective of the project is to increase the production of electricity from renewable sources and thus reduce greenhouse gas emissions into the atmosphere. Detailed objectives of the project are presented in section 2.1 of the Feasibility Study. The subject of the project is the delivery and assembly of a new photovoltaic infrastructure for the needs of Markus Texi, in the town of Rzeszów. The system will include 5 installations consisting of polycrystalline modules for the production of electricity (with a total installed capacity of 198.80 kWp 5 x 39.76 kWp). Actions aimed at creating a renewable energy system are planned. The realisation of the material scope concerns the purchase and installation of photovoltaic installations, which will consist of the following elements. All planned infrastructure elements will be new. The basic elements of the planned installation are: — Photovoltaic modules 710 pieces: they transform solar energy into electricity, which is the result of the photovoltaic phenomenon. Number of modules pc. 710 (710 x 280 W = 198.80 kWp i.e. 0,19MWe). — Inverter – (5 x 2= 10 pieces) – an electrical device changing DC, which is produced by photovoltaic modules to alternating current (such as in the electrical outlet) and gives it the appropriate frequency. This device controls the transmission of electricity to the electrical grid and counts the energy produced by the modules. It’s a inverter. The mounting system – Roofing – Cableing- is responsible for transmitting electrical current from modules to the inverter and from the inverter to the electrical grid. — AC/DC electrical dividers – hermetic enclosures, in which the protection of the photovoltaic installation will be installed. — Monitoring system – it allows to track the current production of electricity from a photovoltaic installation and view archival data. (English) / rank
 
Normal rank
Property / summary: The overall objective of the project is to increase the production of electricity from renewable sources and thus reduce greenhouse gas emissions into the atmosphere. Detailed objectives of the project are presented in section 2.1 of the Feasibility Study. The subject of the project is the delivery and assembly of a new photovoltaic infrastructure for the needs of Markus Texi, in the town of Rzeszów. The system will include 5 installations consisting of polycrystalline modules for the production of electricity (with a total installed capacity of 198.80 kWp 5 x 39.76 kWp). Actions aimed at creating a renewable energy system are planned. The realisation of the material scope concerns the purchase and installation of photovoltaic installations, which will consist of the following elements. All planned infrastructure elements will be new. The basic elements of the planned installation are: — Photovoltaic modules 710 pieces: they transform solar energy into electricity, which is the result of the photovoltaic phenomenon. Number of modules pc. 710 (710 x 280 W = 198.80 kWp i.e. 0,19MWe). — Inverter – (5 x 2= 10 pieces) – an electrical device changing DC, which is produced by photovoltaic modules to alternating current (such as in the electrical outlet) and gives it the appropriate frequency. This device controls the transmission of electricity to the electrical grid and counts the energy produced by the modules. It’s a inverter. The mounting system – Roofing – Cableing- is responsible for transmitting electrical current from modules to the inverter and from the inverter to the electrical grid. — AC/DC electrical dividers – hermetic enclosures, in which the protection of the photovoltaic installation will be installed. — Monitoring system – it allows to track the current production of electricity from a photovoltaic installation and view archival data. (English) / qualifier
 
point in time: 20 October 2020
Timestamp+2020-10-20T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0

Revision as of 16:31, 20 October 2020

Project in Poland financed by DG Regio
Language Label Description Also known as
English
Construction of photovoltaic installations and associated infrastructure in Markus Texi Sp. J.
Project in Poland financed by DG Regio

    Statements

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    597,561.3 zloty
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    143,414.71 Euro
    13 January 2020
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    729,000.0 zloty
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    174,960.0 Euro
    13 January 2020
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    81.97 percent
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    1 September 2017
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    25 May 2019
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    PRODUKCJA-HANDEL-USŁUGI MARKUS TEXI MAREK DROZDOWSKI, WACŁAW PIECZONKA, SŁAWOMIR WZOREK SPÓŁKA JAWNA
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    Ogólnym celem projektu jest zwiększenie produkcji energii elektrycznej ze źródeł odnawialnych a przez to zmniejszenie emisji gazów cieplarnianych do atmosfery. Szczegółowe cele projektu zostały przedstawione w części 2.1 Studium Wykonalności. Przedmiotem projektu jest, dostawa i montaż nowej infrastruktury fotowoltaicznej na potrzeby firmy Markus Texi, w miejscowości Rzeszów. System będzie obejmował 5 instalacji składających się modułów polikrystalicznych do produkcji energii elektrycznej (o łącznej mocy zainstalowanej 198,80 kWp 5 x 39,76 kWp ). Zaplanowano realizację działań, które mają na celu stworzenie systemu odnawialnych źródeł energii. Realizacja zakresu rzeczowego dotyczy – zakupu i montażu instalacji fotowoltaicznych, która składać się będzie z poniższych elementów. Wszystkie planowane do realizacji elementy infrastruktury będą nowe. Podstawowe elementy planowanej instalacji to: - Moduły fotowoltaiczne 710 sztuk: następuje w nich przemiana energii promieniowania słonecznego na energię elektryczną co jest wynikiem zjawiska fotowoltaicznego. Liczba modułów szt. 710 (710 x 280 W= 198,80 kWp tj. 0,19MWe). - Falownik – (5 x 2= 10 sztuk)- urządzenie elektryczne zmieniające prąd stały, który jest produkowany przez moduły fotowoltaiczne na prąd przemienny (taki jak występuje w gniazdku elektrycznym) oraz nadaje jemu odpowiednią częstotliwość. Urządzenie to kontroluje oddawanie prądu do sieci elektrycznej oraz zlicza wyprodukowaną energię przez moduły. Falownik. System montażowy – dachowy - Okablowanie- odpowiada za przekazywanie prądu elektrycznego z modułów do falownika i z falownika do sieci elektrycznej. - Rozdzielnice elektryczne AC/DC-obudowy hermetyczne, w których zainstalowane będą zabezpieczenia instalacji fotowoltaicznej. - System monitoringu- pozwala on na śledzenie bieżącej produkcji prądu z instalacji fotowoltaicznej oraz przeglądanie danych archiwalnych. (Polish)
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    The overall objective of the project is to increase the production of electricity from renewable sources and thus reduce greenhouse gas emissions into the atmosphere. Detailed objectives of the project are presented in section 2.1 of the Feasibility Study. The subject of the project is the delivery and assembly of a new photovoltaic infrastructure for the needs of Markus Texi, in the town of Rzeszów. The system will include 5 installations consisting of polycrystalline modules for the production of electricity (with a total installed capacity of 198.80 kWp 5 x 39.76 kWp). Actions aimed at creating a renewable energy system are planned. The realisation of the material scope concerns the purchase and installation of photovoltaic installations, which will consist of the following elements. All planned infrastructure elements will be new. The basic elements of the planned installation are: — Photovoltaic modules 710 pieces: they transform solar energy into electricity, which is the result of the photovoltaic phenomenon. Number of modules pc. 710 (710 x 280 W = 198.80 kWp i.e. 0,19MWe). — Inverter – (5 x 2= 10 pieces) – an electrical device changing DC, which is produced by photovoltaic modules to alternating current (such as in the electrical outlet) and gives it the appropriate frequency. This device controls the transmission of electricity to the electrical grid and counts the energy produced by the modules. It’s a inverter. The mounting system – Roofing – Cableing- is responsible for transmitting electrical current from modules to the inverter and from the inverter to the electrical grid. — AC/DC electrical dividers – hermetic enclosures, in which the protection of the photovoltaic installation will be installed. — Monitoring system – it allows to track the current production of electricity from a photovoltaic installation and view archival data. (English)
    20 October 2020
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    Identifiers

    RPPK.03.01.00-18-0420/17
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