Mohammadmehdi Armandei and Antonio Carlos Fernandes – 2013 Offshore Technology Conference, May 2013
One of the resources for alternative energy extraction in the area of offshore engineering is the marine current. Traditionally, the marine current energy is extracted through rotation based turbines. However, it became clear that to use of oscillation-based devices rather than the rotation-based ones has some advantages. Based on this idea, an innovative concept in energy extraction from the marine current is presented here. The research introduces an oscillation-based turbine built and qualified through experimental studies. The turbine consists of a flat plate connected to a torsion spring and located vertically in the water current. The flat plate has only one degree of freedom that is yawing about its axis, located in its mid-chord length. The phenomenon based on which the device works is Torsional Galloping, which is a category of Flow-induced Oscillation of instability type. As the current speed exceeds a critical limit, the plate becomes dynamically unstable due to the Fluid-Structure Interaction, and begins to yaw due to the restoration provided by the torsion spring. Although Torsional Galloping is usually suppressed because of its destructive effects on the structures, the turbine here is based on the idea of maximizing it. The efficiency and feasibility of extracting energy are discussed here. The preliminary results show that the maximum efficiency around 10% is achievable through this turbine, whereas this efficiency can be increased even more through further improvements such as non-linear springs and the foil profile. In fact, one such turbine, if improved and designed well, can be more efficient than the common rotation-based turbines. The main advantage about this turbine is that the characteristic length of its oscillating part is not limited by the depth of the water. That is a new approach which possibly makes this turbine to operate better than a rotation-based turbine.