Construction of a photovoltaic installation for generating energy for a rotor (Q104863): Difference between revisions
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(Removed claim: summary (P836): The project consists of the construction of the installation of the photovoltaic panels on the roof of the building company Otor Machinery Zakład Mechanics, Ryszard Walczak, Motycz, Motycz 325C. The installation consists of 60 solar panels with a unit capacity of 265 Wp, an installation capacity of 15,9 kWp. The installation will produce electricity for the company. The aim of the project is to increase the competitiveness of the company by re...) |
(Created claim: summary (P836): The project consists of the construction of the installation of photovoltaic panels on the roof of the company ROTOR Machine Mechanics Department Ryszard Walczak in Motycz, Motycz 325C. The installation consists of 60 photovoltaic panels with a unit output of 265 Wp, installation power of 15,9 kWp. The installation will produce electricity for ROTOR’s needs. The aim of the project is to increase the competitiveness of the company by reducing the...) |
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The project consists of the construction of the installation of photovoltaic panels on the roof of the company ROTOR Machine Mechanics Department Ryszard Walczak in Motycz, Motycz 325C. The installation consists of 60 photovoltaic panels with a unit output of 265 Wp, installation power of 15,9 kWp. The installation will produce electricity for ROTOR’s needs. The aim of the project is to increase the competitiveness of the company by reducing the costs of energy consumed. Photovoltaic panels will be installed in the south-eastern roofing area at an angle of 17° on the assembly system. In order to optimise energy production, a system will be used in which each of the photovoltaic modules has its own traker tracking the maximum power point. In order to increase the auto-consumption factor and thereby reduce the amount of energy put into the power plant’s grid, the photovoltaic system will be equipped with a programmable controller to optimise own consumption, energy generated by a photovoltaic power plant. The measuring module will measure in real time the current in all phases. The project assumes that both the inverter and the power management controller will be connected to an internal LAN with Internet access. The energy management controller generates its own website available on the LAN to which it is connected. Through it, the user is able to set settings for the controller’s work as well as generate periodic reports. The site gives you the possibility to view live for, among others, a parameter such as current value and current flow direction for each phase in the internal installation. The monitoring system will also be used in the multimedia data presentation system by displaying the parameters of the photovoltaic installation on the monitor screen. This data will be presented in a manner accessible to third parties at the investor’s premises, performing an informational role and raising environmental awareness. (English) | |||||||||||||||
| Property / summary: The project consists of the construction of the installation of photovoltaic panels on the roof of the company ROTOR Machine Mechanics Department Ryszard Walczak in Motycz, Motycz 325C. The installation consists of 60 photovoltaic panels with a unit output of 265 Wp, installation power of 15,9 kWp. The installation will produce electricity for ROTOR’s needs. The aim of the project is to increase the competitiveness of the company by reducing the costs of energy consumed. Photovoltaic panels will be installed in the south-eastern roofing area at an angle of 17° on the assembly system. In order to optimise energy production, a system will be used in which each of the photovoltaic modules has its own traker tracking the maximum power point. In order to increase the auto-consumption factor and thereby reduce the amount of energy put into the power plant’s grid, the photovoltaic system will be equipped with a programmable controller to optimise own consumption, energy generated by a photovoltaic power plant. The measuring module will measure in real time the current in all phases. The project assumes that both the inverter and the power management controller will be connected to an internal LAN with Internet access. The energy management controller generates its own website available on the LAN to which it is connected. Through it, the user is able to set settings for the controller’s work as well as generate periodic reports. The site gives you the possibility to view live for, among others, a parameter such as current value and current flow direction for each phase in the internal installation. The monitoring system will also be used in the multimedia data presentation system by displaying the parameters of the photovoltaic installation on the monitor screen. This data will be presented in a manner accessible to third parties at the investor’s premises, performing an informational role and raising environmental awareness. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
| Property / summary: The project consists of the construction of the installation of photovoltaic panels on the roof of the company ROTOR Machine Mechanics Department Ryszard Walczak in Motycz, Motycz 325C. The installation consists of 60 photovoltaic panels with a unit output of 265 Wp, installation power of 15,9 kWp. The installation will produce electricity for ROTOR’s needs. The aim of the project is to increase the competitiveness of the company by reducing the costs of energy consumed. Photovoltaic panels will be installed in the south-eastern roofing area at an angle of 17° on the assembly system. In order to optimise energy production, a system will be used in which each of the photovoltaic modules has its own traker tracking the maximum power point. In order to increase the auto-consumption factor and thereby reduce the amount of energy put into the power plant’s grid, the photovoltaic system will be equipped with a programmable controller to optimise own consumption, energy generated by a photovoltaic power plant. The measuring module will measure in real time the current in all phases. The project assumes that both the inverter and the power management controller will be connected to an internal LAN with Internet access. The energy management controller generates its own website available on the LAN to which it is connected. Through it, the user is able to set settings for the controller’s work as well as generate periodic reports. The site gives you the possibility to view live for, among others, a parameter such as current value and current flow direction for each phase in the internal installation. The monitoring system will also be used in the multimedia data presentation system by displaying the parameters of the photovoltaic installation on the monitor screen. This data will be presented in a manner accessible to third parties at the investor’s premises, performing an informational role and raising environmental awareness. (English) / qualifier | |||||||||||||||
point in time: 17 October 2020
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Revision as of 17:07, 17 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Construction of a photovoltaic installation for generating energy for a rotor |
Project in Poland financed by DG Regio |
Statements
57,145.01 zloty
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87,915.4 zloty
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65.0 percent
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1 April 2018
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30 September 2018
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ROTOR ZAKŁAD MECHANIKI MASZYN SPÓŁKA Z OGRANICZONĄ ODPOWIEDZIALNOŚCIĄ
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Projekt polega na budowie instalacji paneli fotowoltaicznych na dachu budynku przedsiębiorstwa ROTOR Zakład Mechaniki Maszyn Ryszard Walczak w Motyczu, Motycz 325C. Instalacja składa się z 60 paneli fotowoltaicznych o mocy jednostkowej 265 Wp, moc instalacji 15,9 kWp. Instalacja produkowała będzie energię elektryczną na potrzeby firmy ROTOR. Celem projektu jest podniesienie konkurencyjności przedsiębiorstwa poprzez obniżenie kosztów zużywanej energii. Panele fotowoltaiczne zostaną zamontowane na południowo-wschodniej połaci dachowej pod kątem 17° na systemie montażowym. W celu zoptymalizowania produkcji energii, zastosowany zostanie system, w którym każdy z modułów fotowoltaicznych ma własny traker śledzący punkt mocy maksymalnej. W celu zwiększenia współczynnika auto-konsumpcji i tym samym zredukowania ilości energii oddanej do sieci zakładu energetycznego, system fotowoltaiczny zostanie wyposażony w programowalny sterownik do optymalizacji poboru własnego, energii wytwarzanej przez elektrownię fotowoltaiczną. Moduł pomiarowy będzie mierzył w czasie rzeczywistym prąd we wszystkich fazach. W projekcie założono, że zarówno falownik jak i kontroler zarządzania energią, zostaną podłączone do wewnętrznej sieci LAN z dostępem do Internetu. Kontroler zarządzania energią, generuje własną witrynę dostępną w sieci LAN, do której jest podłączony. Za jej pośrednictwem użytkownik ma możliwość wprowadzania ustawień dotyczących pracy kontrolera a także generowania raportów okresowych. Witryna daje możliwość podglądu na żywo dla m. in. takiego parametru jak wartość prądowa i kierunek przepływu prądu dla każdej fazy w instalacji wewnętrznej. System monitoringu użyty będzie także w multimedialnym systemie prezentacji danych poprzez wyświetlenie parametrów instalacji fotowoltaicznej na ekranie monitora. Dane te będą prezentowane w sposób dostępny dla osób trzecich w siedzibie inwestora, pełniąc rolę informacyjną oraz podnosząc świadomość ekologiczną. (Polish)
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The project consists of the construction of the installation of photovoltaic panels on the roof of the company ROTOR Machine Mechanics Department Ryszard Walczak in Motycz, Motycz 325C. The installation consists of 60 photovoltaic panels with a unit output of 265 Wp, installation power of 15,9 kWp. The installation will produce electricity for ROTOR’s needs. The aim of the project is to increase the competitiveness of the company by reducing the costs of energy consumed. Photovoltaic panels will be installed in the south-eastern roofing area at an angle of 17° on the assembly system. In order to optimise energy production, a system will be used in which each of the photovoltaic modules has its own traker tracking the maximum power point. In order to increase the auto-consumption factor and thereby reduce the amount of energy put into the power plant’s grid, the photovoltaic system will be equipped with a programmable controller to optimise own consumption, energy generated by a photovoltaic power plant. The measuring module will measure in real time the current in all phases. The project assumes that both the inverter and the power management controller will be connected to an internal LAN with Internet access. The energy management controller generates its own website available on the LAN to which it is connected. Through it, the user is able to set settings for the controller’s work as well as generate periodic reports. The site gives you the possibility to view live for, among others, a parameter such as current value and current flow direction for each phase in the internal installation. The monitoring system will also be used in the multimedia data presentation system by displaying the parameters of the photovoltaic installation on the monitor screen. This data will be presented in a manner accessible to third parties at the investor’s premises, performing an informational role and raising environmental awareness. (English)
17 October 2020
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Identifiers
RPLU.04.02.00-06-0049/17
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