SINTEF projects

The project will develop and demonstrate an entirely new concept for the separator used in electrochemical devices, with demonstration in Li-ion batteries

SHARP will enable safer handling of ammonia through experimental campaigns, development of validated models and case studies.

This project will generate new knowledge on how hydrogen affects welded steel joints in offshore pipelines. This will support more reliable transport of oil and gas, reduce the risk of leaks, environmental damage and major accidents, strengthening...

SURFER will support Europe’s energy transition by creating more resilient, decarbonised energy systems by advancing hydrogen electrolysers.

Circular use of feathers via innovative tech that turns them into feed and biodegradable materials, returning nutrients to soil. Less waste, better resource use, and a sustainable food chain.

The aim of the project is to explore how civilian 5G technologies can be adopted in defence and international peacekeeping operations to enhance operational effectiveness and interoperability.

We aim to develop a practice-oriented knowledge base on how biological processes can more effectively utilise aquaculture sludge and enable new, sustainable value chains.

The project enables assurance-driven security engineering by combining AI-based assurance services, digital twins, and SecDevOps/MLOps to continuously assess, validate, and improve security and compliance across system lifecycles.

Phase 1 aims to cut FOWT towing costs by reducing conservatism through better knowledge, validated methods, and a guideline for safe, efficient operations.

The objective of the feasibility study is to assess the potential for developing and implementing an information system for provision of Assistive Technology (AT) that can be integrated into existing Health and Education Information Systems in Uganda...

The project will develop a sustainable value chain for Norwegian skate, a by-catch and underutilised marine resource, by turning it into high-value ingredients for nutraceuticals, food and pet food.

A CETP research project aiming to make carbon capture more efficient, safer, and environmentally friendly. It focuses on improving how to manage the chemical solvents that are used to capture CO¬2 from industrial emissions.

Pre-project for the establishment of a greenhouse for tomato production using surplus heat from a datacenter

The project will develop a calculation model for the mass flow of sludge from feeding to on-site storage – for open marine fish farms. Proposals for uniform terminology will also be developed.

The project examines how Northern Norway can develop efficient and integrated logistics solutions for CO₂ transport.

Ecosystem Monitoring and Scaling for Climate Change Impacts

The EU project eREGENERATE is working to develop a new generation of Direct Air Capture (DAC) technology that can remove CO₂ directly from the air in a more efficient, affordable, and sustainable way.

The overarching objective of INCLUCity+ is to support the development of the 15 minute city (15mC) that equitably integrates the diverse needs of logistics operations and children/teenagers, while addressing socio-spatial inequalities.