The aim of this project in broad strokes, is to address the three major contributors to ICT Access energy consumption by producing products that will motivate Operators to make quicker transitions to
Development of cloud-based surveillance software model to transform large amounts of temperature and electricity data into simple recommendations to save energy, avoid inappropriate use of freezers
Biogas production and upgrading to biomethane requires significant amounts of energy. At the same time substantial amounts of energy is lost through low-temperature waste heat streams. This project
The project is a step forward towards establishing digitalization in the building sector and enhancing the energy efficiency in buildings through the development and demonstration of a holistic
The project aims at reducing the overall CO2 emissions related to heating of buildings, while maximising the indoor environmental quality for the occupants through a robust, scalable and easy-to
The aim of the project is to establish an advanced, flexible and robust system for district heating (DH) grid measurements in DH pipe networks by installation in pits and other accessible locations
The goal of this project is to demonstrate a novel mobile molten salt thermal storage system, a mobile “thermalbattery”, which is able to: a) store surplus thermal energy, and b) to deliver this
Development of a new energy efficient air handling unit with heat recovery and reversible heat pump technology using the natural refrigerant CO2 for the HVAC market. High ambient models will feature
The purpose of the BetterLiBs project is to improve the performance, safety, and duration of Lithium-ion Batteries (LiBs) by developing electrolyte formulations that use novel zwitterionic monomers
The main aim of this project is to develop Machine Learning and smart control algorithms that will enable or improve new data services for the building sector. The developed algorithms extrapolate as
The project aims at developing and demonstrating two high-temperature heat pump (HTHP) systems at different integration levels. The HTHP System I will be integrated on process level and demonstrated
To create a latent heat storage for renewable thermal industrial process heat at temperatures up to 180C, delivered at high heat power. With potential to integrate renewable heat sources such as solar
The main goal of the project is to develop a novel industrial factory-built reversible chiller and heat pump unit based on CO2 as the environmentally friendly and safe natural refrigerant. The target
The project develops a new generation of cooking hoods with high energy efficiency ensuring a good indoor climate with low particle pollution in housing.
Develop and demonstrate an innovative system concept that significantly reduces consumption of lubricant oil (40-60%) as well as fuel (up to 2%) on large cargo vessels powered by two-stroke engines.
Fuel efficiency remains an issue of concern in the de-carbonization of the transportation sector. Improved driver performance is a promising avenue of progress with a need for advanced supporting
The objective is to develop, test and demonstrate new hybrid low temperature district energy solutions with local use of renewable energy sources. The project is carried out with the aim of conversion
The purpose of the project was to demonstrate that by using new technologies, materials and operation parameters, the heat losses, the heat flow rate and the total costs of district heating can be