Innovative power electronics for a greener energy grid
The iPLUG project will develop novel power electronics based on multiport converters, thus facilitating the integration of multiple renewable sources, energy storage systems, and loads to the grid.
About
The increasing adoption of renewable energy technologies exerts strain on the distribution grids operating at low and medium voltage levels. Alongside this, contemporary distribution grids encounter additional obstacles such as the need for new infrastructure and the connection of diverse loads operating at varying voltage levels. To address these challenges, the iPLUG project, supported by the European Union, aims to create innovative power electronics utilizing multiport converters. These converters will enable the seamless integration of multiple renewable energy sources, energy storage systems, and loads into the distribution grid. By deploying these converters across different locations, the iPLUG project aims to alleviate grid congestion and enhance overall system performance.
Value proposition
How the use of multiport converters will reduce grid congestion and increase the efficiency of renewable energy integration?
Improved grid stability and reliability
By using multiport converters, the iPLUG project aims to reduce grid congestion and improve the stability and reliability of the electricity grid. This will help to prevent blackouts and other disruptions to energy supply.
Cost savings
By using multiport converters, the iPLUG project aims to reduce the cost of integrating renewable energy technologies into the grid. This will help to make renewable energy more competitive with fossil fuels.
Increased renewable energy integration
The iPLUG project will make it easier to integrate multiple renewable energy sources, such as solar and wind power, into the grid. This will help to reduce greenhouse gas emissions and promote a more sustainable energy system.
Greater flexibility
The iPLUG project will allow for greater flexibility in managing energy flows on the grid. This will make it easier to balance supply and demand and to integrate new energy storage technologies.
Latest news
WP3 KICK-OFF
We're excited to share that iPLUG-HE has started the activities of WP3: the development of efficient multiport power converters for low voltage applications. Our goal is to create a solution that is more efficient, smaller, and easier to scale than traditional setups that require dedicated power converters for each port. Our multiport structures...
WP2 OBJECTIVES
The objectives of WP2 are:• Reviewing multiport converter topologies based on #modularconverters with parallel/series cell connections and #isolation options for various ports• Development of control and modulation strategies to achieve #functionalities at the different ports• Selection of topologies based...
WP2 KICK-OFF
Last month iPLUG-HE started WP2 led by Chalmers tekniska högskola. This WP addresses the design and development of #reliable, #efficient, #modular and #highpowerdensity #multiportconverter topologies for medium voltage distribution grids as compared with the more traditional solutions where a dedicated converter is used to interface sources and...
Our team
The iPLUG project consortium is formed by the following partners:
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