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Danmarks Tekniske Universitet (DTU)
EUDP
2014
2018
The aim of BEST PATHS for Denmark project is to evaluate the research work on impact assessment activities of the BEST PATHS project in a Danish context by setting demonstration KPIs and integrating
The overall objective of the project is to evaluate and optimize the synergies between the power system and district heating system focusing on energy (power and heat) balancing services in emerging
SafeBESS-project presents safe and pragmatic requirements for installation of stationary grid-connected battery systems. Based on international research and best-practice from several countries the
Over time, both the total and the hourly profile of electricity consumption will change. Based on data from hourly metering of consumption by individual customers we analyse what effects the hourly
The subsurface can be used to store excess energy produced by wind and sun as heat or gas. In combination with a CO2 neutral solution, whereby CO2 emissions from available sources are captured, stored
ACES intends to holistically investigate technical and economic system benefits and impacts by large scale electric vehicles' integration on Bornholm, augmented by real usage patterns, grid data and
Activation and control of Danish houses' heating system will offer an opportunity to improve the utilization of electricity from varying sources like renewable energy in a flexible energy grid. The
The main scope of this project is to establish well-documented and quantified technoeconomic scenarios for grid balancing by cryogenic carbon capture coupled with synthesis of transportation fuels
The main objective of GCFB is to develop a VRFB prototype which cna be demonstrated in the low-voltage grid at a feeder line with aggregated renewable production which causes imbalances in the feeder
It is the aim of BEEST to set forward the innovative steps required to establish highly efficient,
low-cost conversion of electricity to chemicals for large-scale storage of renewable electricity and
SustEnergy aims to develop a dedicated life cycle assessment (LCA) model targeted to assessment of integrated energy technologies. The model is based on the existing LCA model EASETECH developed by
The Annex project aims to increase the knowledge, identify critical aspects and possible solutions concerning the Energy Flexibility that buildings can provide and the means to exploit and control
The future Danish electricity system will be based on renewable energy, calling for large-scale energy storage. This project will store electricity as methane by developing an efficient Power2Gas
The objective of the project is to develop and demonstrate a novel information security product for protecting Industrial Control Systems (ICS), e.g. SCADA systems, against cyber-attacks. The product
The project is to investigate the future integrated energy system from the market perspective and to build proper market mechanism for the wholesale market, short-term market and investment market for
The Cloud Battery Management System (BMS) project will develop cloud based battery data analysis and demonstrate that the use of big data and artificial intelligence can significantly improve the
The objective is to develop the communication process and the tools/methods adequate for the DSO to deploy to avoid that the trade on the electricity markets is not threatening the supply security.
The COPE project will provide a cost efficient and secure solution for the design and operation of
100% renewable based energy systems with power to heat (P2H) and power to gas (P2G).
The project will improve the understanding among stakeholders - industry, government, nongovernmental organizations, and research - of what policies, institutions, market designs and consumer