The purpose of the Technology Collaboration Program for Ocean Energy Systems (OES) under the International Energy Agency (IEA) is to exchange information on Ocean Energy Activities in member countries
The project focuses on “Power-to-Heat and Heat Integrated Carnot Batteries for Zero Carbon (industrial) heat supply”, a critical area of investigation for advancing sustainable and resilient energy
The project covers Danish participation in the ExCo activities of the IEA Industrial Energy-related Technologies and System TCP. The activities from the Danish delegates will be concerned with work in
The purpose of the Danish participation in the IEA Technology Collaboration Programme on Heat Pumping Technologies is to promote and implement projects of interest to Denmark and the Danish business
PHESS aims to finalize the development of MacroCaps' patented supercapacitor, establish a number of modular cable-free 1 MW modular rack systems, and conduct tests under real operating conditions
Demonstration and optimization of a semi-scale, single-feedstock biogas plant capable of converting briquetted wheat straw to biogas with a total energy efficiency of 95%.
The purpose of the project is to ensure Danish participation in IEA DHC Annex TS6. The Annex is fo-cused on "Status Assessment, Ageing, Lifetime Prediction, and Asset Management of District Heating
The objective of the present project is to establish design criteria and operation guidelines for PECS, and to quantify its benefits regarding health, comfort, energy and cost performance. This
This project will strengthen the Danish participation in the IEA PVPS task 15: Enabling Framework for the Acceleration of BIPV & Fase 2, 2020-2023, where DTU Fotonik wants to participate in the
The aim of the project is to develop and demonstrate an interlayer foil based on structural colors for making an efficient, cost effective and angle independent way of coloring PV panels for building
The project will explore the opportunities for increased digitalization of the district heating sector. Specifically, data from digital network models and sensor data from the network will be utilized
The overall objective of this project is to develop a carbon-neutral technology for converting plastic waste to methanol. There is a large carbon dioxide emission reduction potential as both
The objective of this project is to demonstrate that a system for biological cleaning industrial wastewater placed on the seabed is technically, operationally and economically viable to achieve zero
By engaging the entire value chain in this consortium, and creating a solution that appeals to building owners, administrators, and tenants, we will produce significant savings in terms of energy
This project aims to identify and evaluating best-practice guidelines for energy-efficient operation of industrial processes the by developing an IoT-enabled edge-computing infrastructure with en-ergy
The aim is reducing electricity consumption for telesites by 15% and reduce costs by a further 2% through peak shaving with local battery storage and renewable energy integration, making sites an
The purpose of the AQUADA-GO project is to develop a methodology for automated, noncontact, near real-time blade damage detection and risk evaluation in a single step using thermography and computer
The aim of the project is to participate in IEA Hydrogen TCP, in order to stimulate hydrogen R&D activities in Denmark and to co-ordinate Danish and international scientific work on hydrogen and