Schaeffler presented at WindEnergy Hamburg last September innovative bearing solutions for wind turbines manufacturers and operators, aimed at increasing performances thanks to higher power density, longer operating times and lower carbon footprint, increasing sustainability of wind farms.
At WindEnergy, Schaeffler introduced its new hydro-dynamic plain bearings and related engineering for planet gears. This is because a thorough understanding of the systems and new simulation and calculation methods, as well as the corresponding tools, is required to ensure that the bearings function smoothly. Increasing power density in wind turbine gears, combined with the demand for reduced weight and cost, requires in fact new bearings concepts. With traditional planetary gears, this leads to a larger number of planets with smaller diameters, known as ‘multi-planet concepts.’ This means that not enough space is available for rolling bearings in the planet gears. Hydro-dynamic plain bearings are the solution here because of their low cross-section.
Performance optimization has also brought about a marked trend towards adjusted bearings with two tapered roller bearings in an O arrangement. The increased support spacing of this bearing arrangement reduces the inner bearing loads, whereby the bearing can be made smaller and lighter. To ensure that the adjusted bearings continue to function year on year, Schaeffler engineers fall back on various options from the tapered roller bearing construction kit. Selection takes place as part of a multi-level system simulation, which takes into account the effect of forces and deformation on the bearings in operation. The bearing details are checked, and in a simulation, the correct pre-load – essential for the adjusted bearings – is determined. In order to ensure this, both during the installation process and in operation, Schaeffler offers the Premesy pre-load measuring system.
Major progress are also possible in the manufacture of rolling bearings in terms of CO2 footprint. Wind energy is second only to hydroelectric power as one of the most climate-friendly energy production technologies. However, emissions in the upstream chain are also considered, such as in the production and processing of steel to manufacture the various components of a wind turbine. In order to significantly reduce the carbon footprint of roller bearings, Schaeffler implements CO2 savings potentials across the entire value chain, from the procurement of the steel, through the manufacturing process, to the logistics and packing.
Finally, speaking about renewables, since 2021, Schaeffler has added its own hydrogen unit to its service offer. Together with the wind power sector, this works on new, integrated solutions that support the achievement of Schaeffler’s sustainability targets. Among other developments, an electrolyzer for the production of green hydrogen is scheduled to start operation at the Schweinfurt plant.
Stacks, the key components of these electrolyzers, form part of the Schaeffler product portfolio. The Schaeffler K-Series Hydron PowerStack will have an application range of 1 to 1.000 kilowatts. It will be designed and produced at Schaeffler sites in Europe, according to the highest quality standards. Electrolyzers can also be installed locally as modular systems. This makes it possible, for example, to link them with individual wind turbines.