The transition to RE demands for new energy management systems (EMS). It is investigated how modularity-based control can be used in EMS to meet the fluctuating production of renewables using flexible
The future electrical distribution systems will use more and more direct current (DC). The research project focuses on the development of future intelligent direct-current (DC) microgrids which is
Silicon is today the most used photovoltaic material for solar cells, yet they are complicated and expensive to make. Different composition and micro structures for thin film solar cells made from the
Eco-friendly production of plastic solar cells in Denmark. Plastic solar cells are almost capable of competing with commercial solar cells. The processing method has environmental consequences in
Can consumers be induced to adopt varying tariffs and automatic response technology for common household appliances at costs that make this socially attractive? The project implements a large scale
Switching to energy from fluctuating energy sources such as sun and wind requires invention of new energy carriers for the transport sector. The project will develop reversible lithium-air batteries
Focus is on how control of the power system, at transmission level, needs to be changed to meet the needs of stable and uninterrupted power, despite the fluctuating energy sources in the grid of the
Improved district heating technology is important for utilisation of power planted heat, geothermal energy, waste, biomass, sun and wind and contributes to making Denmark independent of fossil fuel
The mission of the project is to radically improve integration of wind energy in the power grid through effective coordination of both electricity generation and consumption. Specifically, the project
Wind power and other variable production constitute a significant share of a future renewable energy system. This requires flexible and intelligent solutions. IPOWER focuses on flexible electricity
Photovoltaic technology has a huge potential in a renewable energy system. Today, however, solar cells are expensive and not very efficient. THINC seeks to develop a new type of solar cells, using
A future energy system based on sustainable energy requires flexible production, consumption and transmission of electricity. We are to make large investments in the infrastructure. ENSYMORA will
These years, Denmark is banking on green growth and innovation. However, our understanding of energy innovation systems is limited. EIS explores and analyses the dynamics of knowledge-sharing within
With the key performance criteria for the project in mind (dynamics and energy efficiency) the requirement specification for the 2nd generation Solar Array Simulator has been finalised.
Through a combination of historical analysis, case studies and action research, the research alliance will analyse the roles of socio-technical experiments, creation and utilisation of ''windows of
The project develops a number of new concepts and intelligent approaches for a modern power system which includes renewable energy, storage units, distributed generation, plug-in hybrid electric
The project will be realised by Beijing Solar Energy Research Institute Co. Ltd, China, and the Department of Civil Engineering, Technical University of Denmark. Focus will be on solar combi systems
The project is developing a nano-structured high efficiency solar cell. Unique production process ensures that costs will be competitive compared to cells with similar efficiency.