Airborne Wind Energy 1280 x 430lx

Latest Innovation in Wind Power

Airborne Wind Energy Systems (AWES)
Ground-breaking solutions that differ greatly from conventional wind turbines, need equally innovative braking systems.
Here is how Svendborg Brakes and Stromag, part of the Altra Renewable Energy family(*1), is able to meet these unique and specific demands. 

 

Intro
Airborne Wind Energy Systems (AWES) that produce energy soar through the sky as the latest innovation in wind power generation. A leading developer of AWES was looking for braking systems that would meet the unique, specific requirements of its applications - Altra Renewables was able to offer an ideal solution.

Below is complete copy of the news article on the latest innovation in Airborne Wind Energy Systems. The article is also available to download as a pdf. Article by DMA Europe Press Group, UK.

 

300 meters from the ground
AWES are one of the latest and most promising technologies to produce electricity from renewable resources. They use tethered aircrafts, or other flying objects, to harvest high-altitude winds that blow at heights above 300m from the ground. By exploiting the fast, persistent, and less turbulent speeds of high-altitude winds, AWES can generate power at unprecedented levels.

More precisely, in 1980 the pioneering work of Loyd offered the mathematical demonstration that flying a tethered device across the wind could produce power outputs up to three times greater than comparably sized existing wind systems in similar conditions (*2).


Several hundred meters' sea depths reach 

Further to their impressive outputs, these innovative wind energy converters also benefit from compact, lightweight and highly adaptive designs that considerably reduce the financial, environmental and noise impact of generating power. When deployed on floating offshore platforms in deeper waters, AWESs do not require solid foundation or much ballasting to restrict movement as they operate in tension. As a result, they can be used in locations where sea depths reach several hundreds of meters. 


Maintenance
Additionally, maintenance activities on key components such as power generators, brakes and control systems are streamlined. In effect, these pieces of equipment are located at sea level and easily accessible by boats.


Cutting-edge components

When a leading AWES developer needed suitable braking systems for its products, it contacted Altra Renewables, a division of Altra Motion Corp. The company was particularly attracted by the Svendborg Brakes and Stromag brands. These have extensive experience in providing intelligent braking solutions and power transmission components to the wind energy sector.


Harsh offshore operating conditions
The AWES manufacturer was looking for an innovative braking system with an extremely compact footprint which could operate without an external power supply. This would allow the energy converters to maximise the benefits offered in terms of cost, environmental impact and flexibility. In addition, it was crucial for the components to be able to withstand harsh offshore operating conditions.


Specific braking and hydraulic power unit solutions
In order to address these requirements and design an optimum braking system, the brands within Altra Renewables established a close collaboration with the AWES manufacturer. As a result of this strong relationship, the brands were able to develop a solution based on Stromag’s CB90-R ultra energy rotor brakes. These are active, hydraulically actuated systems for high-energy braking installations. Therefore, they suit the AWES’ operating conditions. In addition, the CB90-R is designed to be extremely compact, allowing them to fit into applications with limited room.


Entire system into AWES body

The brakes are operated by similarly small hydraulic power units (HPUs) from Svendborg Brakes, allowing the entire system to fit into the AWES body. When braking, the callipers squeeze their pads against brake discs made of stainless steel. While uncommon for conventional braking applications, this material would allow the setup to operate effectively and for long periods of time in offshore environments.


Pioneering power generation applications

Thanks to this brake design, the AWES developer was able to produce a setup that uses 90% less material than conventional wind converters, such as wind turbines, while doubling the amount of energy produced. Extremely happy with the results, the company has since adopted the Altra Renewables solution into its product range as standard.


R&D
Tilman Speer, International Sales Manager/Business Development Manager at Svendborg Brakes, comments: “Initially impressed by our existing portfolio, the customer has reported its satisfaction in our ability to design and deliver fully customised solutions, as well as offering continuous assistance throughout the R&D stages of the project. We look forward to further developing our relationship with the customer in future and collaborating on innovations in this exciting new renewables sector.”


Fast growing segment
As a result of this successful collaboration and the resulting interest received for these innovative braking systems, Altra Renewables has added them to its product portfolio to support the fast-growing AWES segment. Businesses in this field can therefore benefit from proven, bespoke, high-quality braking systems as well as comprehensive post-sales services.


Special-purpose drivetrains

Tilman Speer concludes: “There is no question that there is a huge demand for special-purpose drivetrains to drive the renewable energy sector forward. Our brand has a longstanding leading position in the wind energy market as a specialist provider of robust and effective braking systems. These latest solutions further attest to our commitment to support businesses in this field with key products and services.”


(*1)
The Altra Renewable Energy family: Ameridrives, Stromag, Svendborg Brakes, Twiflex, Warner Electric

(*2)
Loyd, M. L. (1980). Crosswind kite power (for large-scale wind power production). Journal of energy, 4(3), 106-111

Article by DMA Europa Press Group

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