Oceanbird was recently presented and received worldwide attention. Together, Wallenius Marine, the Royal Institute of Technology (KTH) and SSPA contribute with considerable resources and expertise to create new knowledge and understandings of vessel design incorporating wind propulsion. The research project is called wPCC (wind Powered Car Carrier), and in September the collaboration presented Oceanbird. Wallenius Marine, owns the concept and SSPA and KTH are research partners.

The phrase “Repetitio est mater studiorum” or “Repetition is th e mother of learning” was the starting point for the SEAMAN Online™ development. Requested by clients who wanted to provide their staff or students with unlimited access to a manoeuvring training environment, SEAMAN Online is the world’s first web-based professional maritime manoeuvring training simulator.

SSPA is part of a consortium of Europe’s maritime research and technology leaders that has launched the project FASTWATER. SSPA’s extensive experience with alternative fuels, including methanol, and design and development of ships with a focus on energy efficiency, will be utilised to help ensure the success of the project. The project has received funding from the European Union’s Horizon 2020 research and innovation program.

Today there are no inland waterway vessels operating in Sweden. Current limited traffic consists only of IMO vessels. Using the inland waterways to a larger extent would create positive benefits according to authorities, goods owners, shipping companies, ports and freight forwarders. SSPA’s experts and researchers studied this in one of the research projects and has now developed a business concept with an emission free vessel. Read the full report: Battery electric inland waterway vessel.

DenCity develops innovative solutions for sustainable and highly efficient passenger and freight transport in densely populated cities. It is a collaborative research project between industry, academia and society in three phases. Phase 3 is ongoing, and the objective is to scale up and implement solutions already developed in earlier phase 2. In this pilot a barge will be designed and implemented in Gothenburg city, at which households can leave their waste as well as items for reuse. 

Accurate, complete, boat-specific and easily accessible technical information for vessels and boats not only enhances safety and accessibility – it also reduces the total lifecycle cost. This case study describes SSPA's S1000D project for the Swedish Defence Materiel Administration from start to finish, including pre-history, challenges, project lessons and visions for the future.

SSPA’s vision is to be recognised as the most rewarding partner for innovative and sustainable maritime development. We want to contribute with new solutions to be able to achieve a long-term sustainable and environmentally friendly society for both those of us who live here today and for future generations.

AIS data offers the possibility to understand historical and typical ship behaviour, as well as generate real-time decision-support solutions for mariners and shore-based operators. SSPA has engaged in various research and development projects using AIS data as their basis, and even offers important and novel commercial tools that function via algorithmic analyses of historical and real-time AIS data.

Recently, wind power has resurfaced as an option worth taking seriously and suppliers of innovative wind technology are appearing on the market. But which ones of the numerous solutions are most suitable? To what extent will they really reduce carbon emissions? SSPA has developed efficient prediction tools for both wind-driven and wind-assisted ships in order to support the development of more sustainable maritime transports.

In the research project wPCC (wind Powered Car Carrier) a wind-powered vessel will be developed, from concept to a technical and financially viable design ready to be built within 3-5 years. This project aims to pave the way for a paradigm shift in maritime transport by demonstrating that this new transport concept is possible even in the near future. We do not necessarily need to wait until 2050 to reach IMO's goal of 50% reduction of greenhouse gases.

Decarbonisation of shipping is one of the greatest maritime challenge and the demand for low carbon solutions is growing. In the research project Wind Assisted Ship Propulsion (WASP) we will investigate how wind solutions can be more commercially attractive for the future in the North Sea region. The WASP project can help to accelerate the transition and to highlight the wind-assisting propulsion potential.