Press Release: Blue Wasp study demonstrates the benefits of adding a flap to a Flettner

13 February 2023 

On behalf of the Technical University Delft (TU Delft) and the Sea Axe Fund, wind-assisted ship propulsion specialist Blue Wasp Marine has assessed the potential of a straightforward adjustment to a Flettner rotor. Using its in-house developed Pelican software, the company studied the effects of adding a flap to the rotor and achieved improved performance and significant reductions in both emissions and fuel consumption. 

The bottom line

In the circumstances covered by Blue Wasp’s tests, inclusion of the flap was shown to increase performance by a significant 35%. The fuel savings were increased from 6.8% to 9.2% when using one rotor (which is an increase of about 35%), or from 10% to 13.3% when using two rotors (which is an increase of about 33%).

Giovanni Bordogna, founding partner and aerodynamics specialist at Blue Wasp Marine, said, “These tests demonstrate the significant potential of wind-assisted propulsion to support the maritime industry meet the challenges it is currently facing. Our results demonstrate how a small adjustment to a Flettner rotor can have a big impact, making shipping operations considerably cleaner and more cost-effective.”

What a drag

The potential of a Flettner rotor to reduce a vessel’s fuel consumption is already well established. However, the rotor is also known to have a relatively large drag, which reduces its aerodynamic efficiency, particularly when sailing upwind.

Fixing the flow 

TU Delft and the Sea Axe Fund hit upon the idea of incorporating a flap to the rotor to fix the flow separation point, thereby altering the lift and drag forces created. To test this, they approached Blue Wasp Marine. 

To collect the required data on Flettner rotor aerodynamics, Blue Wasp conducted tests at the wind tunnel at the Politecnico di Milano in Italy. This information was then combined with the in-built force models of Blue Wasp’s Pelican software. 

Controlling for reliability

Next, Blue Wasp established a series of controls to ensure the accuracy of the experiment. Pelican was to assess the two vessels, one with a Flettner rotor alone and one with rotor and flap, sailing at the same speed, in the same conditions, on the same route.

The company selected to perform the study with a Damen Combi Freighter 5000. This 86 x 15.3 metre vessel serves as a good representative of its type and indicates the effects of the Flettner rotor and flap on a nearshore cargo vessel.

Factors included in the tests were the thrust of the Flettner rotor, wind, resistance in both waves and calm water and resistance resulting from leeway, heeling and rudder operation. 

The performance of the two vessels was considered over the same North Sea route, between Rotterdam, the Netherlands and Trondheim, Norway. 

Closer to the wind

The tests demonstrated that the addition of the flap delivered a significant increase in aerodynamic thrust, increasing the vessel’s operating profile. The vessel equipped with the Flettner rotor and flap has a tacking angle in the region of 15 degrees smaller than the one with only the rotor. This allows the vessel to sail significantly closer to the wind, vastly improving efficiency of performance upwind. 

Exceeding the brief

Though not a part of the study, the results also established that, in most positions, the flap’s decreases of lift and drag resulted in reduced downwash and less accelerated flow in the rotor wake. This results in a relatively smaller aerodynamic sideforce, requiring smaller heeling, leeway, and rudder angles to reach sailing equilibrium. This means that the vessel with the rotor and flap can operate at higher wind speeds. 

Albert Rijkens of TU Delft explained the education establishment’s thinking behind asking Blue Wasp to perform the research, saying, “Wind-assisted ship prolusion has found renewed interests from the shipping industry to meet the global climate goals and it will play a vital role to lower emissions, especially for large ocean-going vessels. This research demonstrates how small modifications to well-known rotor systems can already make a big difference in the propulsion efficiency of wind-assisted ships. Delft University of Technology will continue to intensify its research in this area by making wind-assisted ship propulsion one of its spearheads of maritime research for the coming years.”

De-risking decarbonisation

Giovanni Bordogna: “This case study highlights the effectiveness of Pelican. By conducting studies such as this, we can investigate the potential of various approaches to wind-assisted propulsion prior to implementation, de-risking wind investment for ship owners and operators and helping to decarbonise the industry.”

About Blue Wasp Marine

Blue Wasp Marine is dedicated to wind assisted propulsion as a solution for the decarbonisation of the maritime industry. Blue Wasp aims to support vessel owners & operators as well as naval architects and shipbuilders through the journey to wind assisted propulsion, from preliminary assessment to installation, eliminating risks and ensuring optimal benefits.  

Based on over a decade of PhD research, Blue Wasp has developed Pelican, a unique piece of design decision software that offers rapid, reliable performance predictions. With its highly flexible and customisable character, Pelican informs the correct decision making and ensures the best results in wind assisted propulsion.  

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