The Wind Assisted Ship Propulsion (WASP) project has recently been officially approved and launched. This project brings together universities, wind-assist technology providers with ship owners to research, trial and validate the operational performance of a selection of wind propulsion solutions. SSPA is one of the expert partners that will test wind propulsion systems on different types of vessels, routes and sea conditions. WASP is funded by the Interreg North Sea Europe programme.

How can inland and coastal shipping be used to a greater extent? Recently about 100 participants from industry, academia and the public sector attended a seminar in Gothenburg, focused on how the use of inland and coastal shipping could be increased. The seminar featured three themes: Regions and ports perspective, Logistics solutions and Waterways in urban areas. The speakers included both Swedish and international perspectives.

The Sea Traffic Management Validation Project was finished this summer and its final report with the project’s results was recently published. SSPA has been a partner in this project, where the SSPA Route Optimisation Service was developed and integrated into the ECDIS through the Maritime Connectivity Platform and tested with the involved partners and ships. Optimising the route has a strong impact on the operational costs for fuel and it is translated into GHG emission savings.

A new research article is published in the journal Marine Policy. This paper provides an overview of how Automatic Identification System (AIS) can be used in different areas of maritime research. The researchers have identified and presents ten different research areas in which AIS is used today. In the future they propose making use of AIS data also in other research fields. Many stakeholders can benefit from the research in which AIS data is used.

We have completed a research project with the aim to gain increased knowledge of the effect a rough surface has on skin friction. This project has also resulted in an interactive tool that can be used to estimate fuel consumption without requiring background knowledge in hydrodynamics. This tool will hopefully contribute to better surface treatment of vessels, that in the end can reduce costs and emission of greenhouse gases.

To assess how ship domains vary under different geographical settings and in different types of meetings, SSPA performed a case study. Our researchers studied over 600,000 ship encounters at 36 locations around the Swedish coast. The conclusion is that the ship domain has the shape of an ellipse with half axes radii of 0.9 and 0.45 nautical miles in open waters. In contrast to previous research, it has also been discovered that the ship domain is unrelated to the length of the ship.

Simulations are an efficient tool for gaining valuable insights for decision-making. To perform high-quality ship simulations, high-quality input data is required. Without good input data, the output from the simulations will not be a reliable source of support for decision-making. Thanks to SSPA’s test facilities, and the development and use of CFD, we have access to extremely good data which supports the simulation models in the SEAMAN Simulation toolbox.

The goal of reducing fuel consumption, enforced by international regulations and high fuel costs, is motivating ship designers to investigate revolutionary ideas or re-visit old techniques and apply them using new technologies. Hull line optimisation and propulsion system improvements are common practice for achieving this goal, but what if we can eliminate resistance (at least partially) at its source.