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Wave energy benefits from the mistakes of wind power

Buoy on the high seas.
Researchers and companies hope and believe in the possibilities of extracting electricity from the kinetic energy of waves in seas and lakes. (Photo: Cor-Power)
Published Jan 27, 2021

Is wave energy the new star of renewables? The potential is great and a research team at KTH works towards a faster development for harvesting the powers of the seas.

So far, wave energy is still in an early development phase. Three years ago, Europe had wave power installations in the water corresponding to one single average wind turbine. However, there is capacity, and many believe in the possibilities of ocean wave energy – that means generate electricity from the potent movements of the sea.

Fabian Schwack  from the department of Machine design at KTH wants to contribute to as a fast development as possible for the renewables. He works within the field of tribology – the science of friction, wear and lubrication – a sometimes neglected field when developing new applications, but nevertheless crucial for any device with moving parts. All interacting surfaces in motion are affected by tribology, he explains:

Portrait of Fabian Schwack.
Fabian Schwack.

“The right friction means less wear. The field of tribology is very interdisciplinary and offers room for great technology improvements, especially for young technologies like wave energy converters.”

Optimal tribology

In order to guarantee that the moving machine components such as bearings or gears function, the tribology must be optimal. Otherwise, components can fail and the function will be limited.

“Bearings and gearboxes of wind turbines often show high failure rates, since tribology was neglected in the beginning. Nowadays, bearings and gears show better performance as research and industry have worked on optimizations. However, it would have been more effective to address the possible tribological problems from the start,” Fabian Schwack says.

“There is little literature on tribology and ocean wave energy. Wave energy converters are mainly tested on functionality, survivability and efficiency. However, functionality, survivability and efficiency are long-term affected by tribology. Not all companies are currently aware that salty environments, oscillating movements and alternating loads are very critical conditions for the tribological components” he says, adding:

“Since the technology is still young, we can actively influence its development and prevent problems before they occur. The basic idea is to learn from the mistakes of wind energy.”

Minimize downtime

The problems arise when the wave energy converters are scaled up and have been in the water for several years. Fabian and his colleagues therefore try to minimize any downtime as the system is difficult to reach in the sea.

 Model of wave power technology.
Model of wave power technology. (Illustration: Cor-Power)

“We will focus on the tribological design of the components as well as on the lubrication. Take the lubricant as an example. Often, a moving component is designed exclusively for function, durability and economy. After the design is finished, tribologists are called in to recommend or develop a lubricant. But, the lubricant must also be designed for function, durability and economy. The lubricant as a component must be considered from the start.”

The team, led by Professor Sergei Glavatskih , works in close cooperation with two wave energy companies and a grease and an oil manufacturer. To get an impact in the ocean wave energy industry in general, the research group will develop an online open-access toolbox that all companies can use to investigate the tribology of their applications.

In addition, they will develop guidelines on the subject of tribology and ocean wave energy. This way all companies have the possibility to identify critical components without specialist knowledge. Both the toolbox and the guideline will be open to the market.

 Text: Anna Gullers

Buoy and rectangular float.

Two concepts for ocean wave energy

The wave energy absorbed into a linear motion along the buoy axis is converted into electricity by a mechanical drive train located inside the buoy. A gearbox converts linear motion to rotation motion (above left).

This concept uses a wave energy converterwhich extracts energy from the vertical motion of the waves. It has two main subsystems: the rectangular float and an inverted hydro power plant. The conversion of the wave movements is realized by a turbine (above right). 

Fabian Schwack comments:

"When we think of wave power, we are led to believe that 'the bigger the waves, the better’," Fabian Schwack says. "Waves that would be the dream of a surfer are rarely the ones that are good for energy conversion. Instead, we want to have a relatively constant wave height. It is similar to wind power in that way: we design the system for the average wind speed and prevent the system from being damaged by storms.”

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Last changed: Jan 27, 2021