How can we improve energy efficiency? How should we build the energy systems of the future? How do we bring together people who will make the difference?
And how can we strengthen international cooperation? Our projects design energy for tomorrow’s world.
The energy transition calls for innovation and a fresh mindset. Our current level of energy consumption must be halved as quickly as possible. And it is imperative to satisfy this demand using regenerative energy sources that protect our climate and environment. The energy transition will be more successful if we use electricity, heat and fuel efficiently.
Tomorrow’s energy systems will have to overcome many and varied challenges. Production, distribution and consumption need to be linked intelligently in order to guarantee a constant supply of renewable energy.
The expansion of renewable energy has already made significant progress in Germany, especially in the electricity sector. Now the focus now is increasingly on linking the energy systems. Knowledge and technology transfer on an international level is important here.
The combined generation of heat and power (CHP) makes a significant contribution to increasing energy efficiency where generation is concerned. Furthermore, CHP can be used to reduce costs both in the industrial sector as well as in households.
In its “Grid Flex Study", dena is investigating how storage facilities can be used to increase flexibility in the electricity grid. The aim is to identify operating models for storage facilities that are economically viable and which reduce the load on the electricity grid.
Project start: February 2016
Study duration: 12 months (until the end of January 2017)
The partners in the study are 23 companies from various industries (grid operators, energy providers, plant engineers and providers of storage facility solutions)
With the help of Grid Studies I and II, dena presents the measures which will allow the German electricity grid to meet the challenges of the future: through targeted grid expansion and at the same time optimising the existing energy infrastructure.
Grid Study I: released in February 2005
Grid Study I: 17 partners from the industry (grid and installation operators as well as their associations) as well as the Federal Ministry for Economic Affairs and Energy (BMWi) and the Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety (BMUB)
Grid Study II: released in November 2010
Grid Study II: 14 partners from the industry (grid and installation operators as well as their associations) as well as the Federal Ministry for Economic Affairs and Energy (BMWi) and the Federal Ministry for the Environment, Nature Conservation, Building and Nuclear Safety (BMUB)
In the future, renewable energy, storage facilities and other alternative providers of ancillary services can and must make a greater contribution towards the security and stability of our electricity system. With the aim of creating the necessary framework conditions in a swift and timely manner, the dena Ancillary Services Platform pools the results of individual activities in the field of future ancillary services, identifies areas in which action is required and promotes exchange between and communication with experts.
Project duration: September 2014 to September 2020
Partners of the platform: 22 companies from various industries (system operators, energy suppliers, system manufacturers) as well as politicians and associations
With the support of German distribution grid operators, dena has conducted a study to calculate the economic costs of a nationwide rollout of the Smart Meter technology, its direct benefit effects (grid benefits) and the regulatory framework requirements.
Project duration: July 2014
Partners of the study: 11 companies (with a focus on grid operation and energy supply)
Research partners: Ludwig Einhellig (Deloitte & Touche GmbH), Prof. Dr.-Ing. Christian Rehtanz (TU Dortmund/ef. Ruhr), Prof. Dr. Gert Brunekreeft (Jacobs University Bremen)
dena has been in charge of the Power to Gas Strategy Platform since 2011. Together with partners from business, associations and science, it analyses the importance of Power to Gas for the use of renewable electricity and defines the conditions for utilisation of the system solution for economical and large-scale technical deployment.
Project start: 2011
currently 26 project partners
Objective: 1,000 MW installed capacity in the form of electrolysers by the year 2022