SINTEF projects

Geodata Space for Smart Water Monitoring & Response from Extreme Weather

Our aim is to develop a next-generation diagnostic device that can detect carbapenemase-producing bacteria directly from patient samples - such as blood, urine, or swabs - in under 15 minutes, without the need for time-consuming lab cultures.

QSENS aims to improve upon Superconducting Nanowire Single-Photon Detector quantum sensors (SNSPDs). SNSPDs can be utilized as stand-alone sensors or a components in quantum computers or quantum communication.

SeaWeave aims to pioneer new knowledge and technologies for a blue biorefinery model, focusing on converting red and brown seaweed into innovative and sustainable fibers and dyes, contributing to increased valorization of underutilized renewable...

Sustainable transformation of rural communities via technical, social and organizational innovations

By turning waste into a resource, we aim to contribute to a more sustainable and circular future for seafood production.

The AQUAbubble project focuses on nanobubble technology to boost sustainability and productivity in land-based fish and microalgae production.

- Improving energy production and safety in biocarbon value chains

Optimizing Yard Operations (OYO) will provide innovative technology that incorporates optimization algorithms for planning resource-efficient stabling and shunting in train yards.

A toolkit for sustainable integration of solar cells in the Norwegian built environment

Reducing societal risk in a changing climate using nature-based solutions in sustainable urban area development

The main objective of the FlexForge project is to develop a flexible and adaptable forging line that combines high efficiency, enhanced sustainability, and the ability to rapidly adjust to production demands.

The Data Space for a Sustainable Green Europe

SiQUEST aims to develop a silicon-based quantum sensing platform, enabling more precise measurements and strengthening Norwegian research and industry.

Scalable, Plug & Play and Modular DC Power Systems for low-emission Large Vessels

Efficient HV-electric modular battery and distribution systems for sustainable WAterborne VEssels

The project will develop new knowledge and propose measures to reduce the risk for personnel in the aquaculture industry. A particular focus is safety challenges that arise at the interface between different organisations.

The project aims to change the way buildings manage energy consumption through innovative sensor-based control of ventilation systems.