SINTEF projects

The FUMO project aims to find solutions for a sustainable and growing transport system in arctic urban and industrial conditions.

The HICCUPS project proposes a resource efficient solution to convert biogenic CO₂ emissions from wastewater treatment plants into bio-based polymers for the packaging industry.

We explore the potential of quantum computing in solving optimization challenges in the defense sector, collaborating with NeQst to exchange methods.

QUASAR ambition is to offer Europe the unique opportunity to move towards competitive PV production and a fully circular economy, by tackling all of the underlying challenges in a holistic way.

RESILIAGE will unlock Europe's hidden resource: community resilience. Through digital tools and soft solutions, it will revolutionise DRM, co-create resilient communities, inclusion, and more, with a holistic approach.

The overall aim of RIGHT BALANCE is to establish new knowledge about the relationship between physical activity, sleep and self-perceived fatigue, and to develop advice on how alterations in activity and sleep can reduce fatigue and increase mastery...

SEARCULAR’s core objective is the reduction of marine litter and microplastics generated by European fisheries (demersal trawlers, demersal seiners, tropical tuna purse seiners) and to promote circular economy practices in the fishing industry.

Carbon capture from syngas to Single Cell Protein (SCP) and use as fish feed ingredient

KSP WIND will develop new simulation tools for accurate analysis of wind-powered ships that include aerodynamics, hydrodynamics, propulsion, machinery, control system, and operation, both for short-term time-domain analysis and long-term statistical...

Marine rest raw material constitutes an important value-creating resource in the Norwegian fisheries and aquaculture industry. Today, the majority is brought to shore and taken care of in a good way, but the potential for increased utilization rate...

In the ATAM project we will build collaboration between the partners and develop and demonstrate AI-based methods for automated planning and acting – AI planning – in autonomous multi-robot operations needed for the defence sector and for...

By merging competences of metocean, wave hydrodynamics, and structural dynamics, the B -WAVES-project will gain new knowledge on the extreme waves and wave loads that bottom fixed offshore wind turbines experience during its lifetime.

Establish the knowledge basis and methodologies necessary for developing a socio-economically favourable and robust coupled offshore and onshore grid.

The PERTINENCE project is dedicated to transferring knowledge and results in the field of physics-informed AI, which combines traditional physics-based modeling methods with AI approaches, from ongoing research in civilian application to defense...

Ammonia (NH₃) has intrinsic risks due to toxicity and flammability.

The project will identify the global food industry needs, considering emerging processing technologies, such as high pressure processing, membrane processing, pulsed electric field and ultrasound.

The PlastiSpread project studies the role of the microbial community in biofilms associated with marine plastics, and how they are influenced by variations in urban WW discharges.

We will enable medical imaging in remote areas by using artificial intelligence to guide ultrasound in real-time. Thereby improving remote health care services and its environmental and economic sustainability.