SINTEF projects

Developing optimal solar systems for industrial heat and power Horizon Europe Innovation Action

The INTEND project will use cutting edge AI solutions to achieve automated operation of the computing continuum based on the intents of human stakeholders, creating a toolbox that continually learns how to adapt and orchestrate cloud and edge...

Next generation smart hot water tanks with integrated latent energy storage

Competitive & environment‐friendly thermal energy storage technology

Flexible latent thermal storage for reserve markets access of heating and cooling systems

MaksGrid will test solutions that collectively will enable increased utilisation of the power grid by 25%.

The MARINERG-i Distributed Research Infrastructure (DRI) unites and consolidates the EU Offshore Renewable Energy (ORE) testing facilities to accelerate development and realise the potential of this sector.

Megawatt charging infrastructure for electric heavy-duty transport

MikRho will establish a stable, reproducible microalgae culture optimised for industrial production that has a favourable microbiome, good nutrient composition, and increased growth rate.

MISSION will develop and demonstrate three new SF₆-free switchgear components for medium and high voltage (MV and HV).

The project aims to design, validate and build an integrated prototype demonstrator that utilizes an immersion cooling system in combination with new, highly efficient materials and systems for long-term thermal energy storage.

The project aims to develop and demonstrate methods for robust online sampling, modelling and prediction of heavy metal emissions associated with dust from the aluminium industry.

The main goal of the project is to develop decision-support methodologies that account for dynamic grid capacity and detailed information about consumption and production in the current grid, as well as for a range of development scenarios.

The project's goal is to support Trondheim's climate transition by developing knowledge and solutions for CCS as part of a fair and sustainable urban development.

Redesigning the Primary Sector for Maximizing Bioeconomy Development

The main goal of the project is to develop methods and tools for forecasting future load requirements at an aggregated level (regional and transmission grid) for up to 20 years ahead.

A rEVOLUTIONary approach for maximising process water REuse and REsource REcovery through a smart, circular and integrated solution

The project targets R&D challenges to the industrialisation of additive manufacturing (AM) technology for composite parts containing either short or continuous fibre-reinforced thermoplastics.