Hybrid system for storage and buffering of dual use (Q83990): Difference between revisions
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(Created claim: summary (P836): The growing expectations of society, the need for long-distance electricity transmission, the associated loss and disruption impact on the continued search for new solutions in the electricity sector.One of these could be the use of renewable sources of energy (Renewable Energy Sources) and its storage in a distributed system of Energy Storage (ME).The aim of the project is to construct and examine a prototype installation for RES, ME and system...) |
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The growing expectations of society, the need for long-distance electricity transmission, the associated loss and disruption impact on the continued search for new solutions in the electricity sector.One of these could be the use of renewable sources of energy (Renewable Energy Sources) and its storage in a distributed system of Energy Storage (ME).The aim of the project is to construct and examine a prototype installation for RES, ME and system management systems.It will be possible to see the technical aspects of the installation, the characteristics of its work and the location of any problems.There are plans to set up energy storage facilities based on what is known as the “Green Paper”.& bdnie; hybrid & 2 solutions; connecting lead-acid accumulators, Lithium-ion, saltwater and supercapacitors.In addition, the fall-back thermal standard will be used, which is an unprecedented solution in the world.This will enable them to gain knowledge about the cooperation of these energy sources, to select the best parameters for future installations.The design work involves the installation of RES installations based on PV modules (PV) and wind turbines (WT).RES systems will generate direct current that has to be processed for AC 230V AC mains.To this end, the system will be accompanied by a hybrid (inverter) with a charger function adapted to the work with the PV and WT.The electrical testing of the individual cell modules is assumed.The tests will begin with the measurement of a representative group of cells for which the parameters will be plotted as follows:dependence of electricity on discharge current, instantaneous peak currents, short-circuit current, internal resistance, congestion/excessive discharge, immune (English) | |||
Property / summary: The growing expectations of society, the need for long-distance electricity transmission, the associated loss and disruption impact on the continued search for new solutions in the electricity sector.One of these could be the use of renewable sources of energy (Renewable Energy Sources) and its storage in a distributed system of Energy Storage (ME).The aim of the project is to construct and examine a prototype installation for RES, ME and system management systems.It will be possible to see the technical aspects of the installation, the characteristics of its work and the location of any problems.There are plans to set up energy storage facilities based on what is known as the “Green Paper”.& bdnie; hybrid & 2 solutions; connecting lead-acid accumulators, Lithium-ion, saltwater and supercapacitors.In addition, the fall-back thermal standard will be used, which is an unprecedented solution in the world.This will enable them to gain knowledge about the cooperation of these energy sources, to select the best parameters for future installations.The design work involves the installation of RES installations based on PV modules (PV) and wind turbines (WT).RES systems will generate direct current that has to be processed for AC 230V AC mains.To this end, the system will be accompanied by a hybrid (inverter) with a charger function adapted to the work with the PV and WT.The electrical testing of the individual cell modules is assumed.The tests will begin with the measurement of a representative group of cells for which the parameters will be plotted as follows:dependence of electricity on discharge current, instantaneous peak currents, short-circuit current, internal resistance, congestion/excessive discharge, immune (English) / rank | |||
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Revision as of 09:56, 4 March 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | Hybrid system for storage and buffering of dual use |
Project in Poland financed by DG Regio |
Statements
1,564,114.17 zloty
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2,570,980.42 zloty
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60.84 percent
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1 April 2018
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30 June 2020
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WOJSKOWY INSTYTUT TECHNIKI INŻYNIERYJNEJ IM. PROFESORA JÓZEFA KOSACKIEGO
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Rosnące oczekiwania społeczeństwa, konieczność przesyłu energii elektrycznej na duże odległości, związane z tym straty i zakłócenia wpływają na ciągłe poszukiwanie nowych rozwiązań w sektorze elektro-energetycznym. Jednym z nich może być wykorzystanie OZE (Odnawialne Źródła Energii) przyjaznych środowisku oraz magazynowania jej w rozproszonym systemie Magazynów Energii (ME). Celem projektu jest zbudowanie i zbadanie prototypowej instalacji OZE, ME i systemów zarządzania sterujących pracą układu. Możliwe będzie zapoznanie się z aspektami technicznymi instalacji, charakterystyką jej pracy oraz zlokalizowanie ewentualnych problemów. Planuje się stworzenie magazynów energii bazujących na tzw. „rozwiązaniach hybrydowych”, łączących akumulatory kwasowe, litowo-jonowe, słonowodne i superkondensatory. Dodatkowo zostanie zastosowana rezerwowa bateria termiczna co jest rozwiązaniem niespotykane na świecie. Umożliwi to zdobycie wiedzy w zakresie współpracy tych źródeł energii, dobrania najlepszych parametrów do przyszłych instalacji. Prace projektowe zakładają wykonanie instalacji OZE opartej o moduły fotowoltaiki (PV) oraz turbiny wiatrowe (WT). Systemy OZE będą generować prąd stały, który musi zostać przetworzony do napięcia sieci 230V prądu przemiennego jednofazowego. W tym celu do systemu dołączony będzie hybrydowy inwerter z funkcją ładowarki przystosowany do pracy z ogniwami PV oraz WT. Zakłada się zbadanie pod względem elektrycznym poszczególnych modułów ogniw. Badania rozpoczną się pomiarami reprezentatywnej grupy ogniw dla których wykreślone zostaną takie parametry jak: zależność pojemności elektrycznej od prądu rozładowania, wartości chwilowych prądów szczytowych, prąd zwarcia, oporność wewnętrzna, skutków przeładowania/nadmiernego rozładowania, odpornośc (Polish)
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The growing expectations of society, the need for long-distance electricity transmission, the associated loss and disruption impact on the continued search for new solutions in the electricity sector.One of these could be the use of renewable sources of energy (Renewable Energy Sources) and its storage in a distributed system of Energy Storage (ME).The aim of the project is to construct and examine a prototype installation for RES, ME and system management systems.It will be possible to see the technical aspects of the installation, the characteristics of its work and the location of any problems.There are plans to set up energy storage facilities based on what is known as the “Green Paper”.& bdnie; hybrid & 2 solutions; connecting lead-acid accumulators, Lithium-ion, saltwater and supercapacitors.In addition, the fall-back thermal standard will be used, which is an unprecedented solution in the world.This will enable them to gain knowledge about the cooperation of these energy sources, to select the best parameters for future installations.The design work involves the installation of RES installations based on PV modules (PV) and wind turbines (WT).RES systems will generate direct current that has to be processed for AC 230V AC mains.To this end, the system will be accompanied by a hybrid (inverter) with a charger function adapted to the work with the PV and WT.The electrical testing of the individual cell modules is assumed.The tests will begin with the measurement of a representative group of cells for which the parameters will be plotted as follows:dependence of electricity on discharge current, instantaneous peak currents, short-circuit current, internal resistance, congestion/excessive discharge, immune (English)
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Identifiers
POIR.04.01.02-00-0099/17
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