SUMMETH, the Sustainable Marine Methanol project, which investigated and advanced development of methanol engine and fuel solutions for smaller ships, has recently been completed and the final reports are now available. SSPA was project manager and contributed with environmental assessments, feasibility of sustainable methanol supply, and safety assessment. 

Modern Finn dinghies are flexible in sections of the hull. The subjective perception of the sailors is that this makes the boat faster in waves. In a research project together with Chalmers Sports & Technology and Max Salminen, a two-time Swedish Olympic sailor and current World Champion, SSPA will attempt to verify this.

The needs and possibilities of electrification within shipping is analysed in a pre-study, conducted in a Swedish collaborative project. The aim is to give an overview of the technical development within electrification of sea transportation and analyse parameters that influence the performance and costs. The study also investigate the perspective of industry actors regarding their drivers for maritime electrification as well as existing challenges.

The high and rapidly increasing demand for maritime space for different purposes, as well as the multiple pressures on coastal resources, requires an integrated planning and management approach. Rerouteing of shipping lanes and the introduction of new routing systems may be needed to ensure high maritime safety and sustainable co-existence of various marine activities. SSPA’s toolbox and experience assist planning and maritime authorities to prepare sustainable and efficient plans.

Knowledge-based organisations like SSPA constantly have to adapt to a changing world. Our strategic research plans help us to set the direction and to break down the challenges into manageable goals. Structured research and development is a prerequisite for continuing to support our clients and partners with leading edge, innovative and sustainable maritime solutions.

In 2017, the Nobel Prize in physiology/ medicine was awarded to the discoveries of molecular mechanisms controlling the circadian rhythm. The circadian rhythm, mostly affected by light, controls our alertness and sleepiness during the day. We can all benefit from knowing how to use light to maximise our performance, but it is even more important for mariners who are working and living 24 hours a day in a harsh environment.

The project will contribute to a more environmentally friendly and low-carbon transport system in the region, while also developing and enhancing the maritime transport system and encouraging the transfer of freight from road to sea. This will be achieved by developing cost-effective, secure, flexible and competitive short sea shipping concepts.