New cooling technology and newly developed communication and management solution allows access to untapped reserves the telecommunication companies. Reserves that are already established. The way to
The goal of SDVP Connect is to mobilize the Heat Pump ITC-platform, developed in collaboration with Energinet.dk and ForskEL, on the Smart Grid market.
To fulfill the Danish Government's ambitious plan regarding renewable energy, some technical and economical hurdles have to be cleared. A major issue is energy storage. This project will present
The project will result in recommendations for integration of heat pumps in existing distribution grid, which otherwise risk to be overloaded. The recommendations will be based on analysis of
In order to efficiently provide system services to the distribution grid, aggregators of flexible DER units require information about the topology of the grid. This information is currently not
DC chargers represent an attractive option for public stations, but increase of the system peak consumption may lead to the overload of certain sections of transmission and/or distribution network.
The project aims to determine how new renewable energy sources can be included in the electricity system, in operational planning and in the supply of reserve and regulating power. It will be
The focus of the project is to investigate if there are potential flexible energy reserves in serverrooms and telesites that can be implemented and exploites as manual energy reserves in the
RTLabOS will be a new type of integration platform for PowerLabDK, enabling research in next generation SCADA systems with real-time control capabilities, improved configuration management and
This project investigates the demand response potential of a modern building based on the intelligent control of the building operations and the consumption of its residents. User-driven innovation
The ability to store surplus electricity derived from renewable sources will lead to a more efficient and well-balanced energy production benefitting the Danish energy consumer. The proposed project
CHPCOM (Combined Heat and Power Communication) is a project that through practical experience will analyse, develop and demonstrate the use of international Smart Grid related data communication
The project’s primary focus is to develop and maintain a system that controls the heat production and electricity consumption of heat pumps, in order to improve local energy efficiency and to optimize
Smart charging services for electric vehicles can help reduce the cost for both owner and power system. They are, however, unlikely to be adopted by OEMs and market players if left unresolved. While
The “Smart Grid Open” project will secure the realization of guidelines, methods and testing protocols enabling conformance testing of communication interfaces for Smart Grid Ready products. Reference
Feasibility study of an offshore energy storage facility with integrated renewable energy production (wind, wave and solar). Design geometry is verified and total costs estimated. Earning potential in
The purpose of the project is to carry out detailed planning/engineering and part-implementation of an off-grid renewable energy solution for Livø Island. A previous project has - based on e.g. the
TotalFlex is a demonstration project that intelligently manages flexible consumption and production. This is done by flex-offers from a technical and commercial VPP, which are traded on a marketplace
NEAS ENERGY A/S
ForskEL
2012
2014
The aim is analyzing, developing and demonstrating a smart grid ready Virtual Power Plant controller that includes the complex challenges of large scale demonstration with demand flexibility