E.ON has committed to invest in the development, and if successful, construction and operation of a demonstration site in County Mayo in Ireland. In parallel, E.ON has entered into a collaboration agreement with Ampyx Power as the first user of the upcoming test site. The company is strengthening its position as a frontrunner and early adopter in airborne wind energy, an emerging sector developing game changing technologies for renewable energy production.
Developing a test site is an important stepping stone which enables E.ON to work closely with the most promising technology developers and to provide support for the commercialization of airborne wind technology. This landmark development opens up new possibilities for collaboration with a multitude of companies pioneering airborne wind power generation technology as well as being a platform working together with research and governmental institutes.
The investment in a test site and the associated collaboration with Ampyx Power marks E.ON’s second major commitment in the airborne wind energy domain. In 2016, E.ON invested in the Scotland-based airborne wind energy start-up company Kite Power Systems. “Airborne wind supports one of our overall targets to drive down cost for renewable energy. In addition to making airborne wind competitive to conventional wind power, we would like to work with authorities and legislators to pave the way for introducing this exciting technology and eventually make it eligible to participate in tendering processes,” said Anja-Isabel Dotzenrath, CEO of E.ON Climate & Renewables.
The Netherlands-based Ampyx Power, founded in 2009, is one of the leading companies in the emerging airborne wind energy sector. Wolbert Allaart, its Managing Director, explained: “This cooperation with E.ON, one of the leading energy companies in the world, is a major milestone for our company. It is fundamental for us as it allows us to incorporate E.ON’s vast offshore wind expertise into our product design efforts. The clear proof of market interest inspires our team of almost 50 engineers who are working on product development since 2014, after we have proven our concept in the initial five years of our existence.”
Airborne wind technology harvests wind energy by using a fixed wing or sail comparable to kite-surfing in altitudes up to 450 meters. This novel technology has the potential to transform the global offshore wind generation market as airborne wind devices are cheaper to manufacture and easier to maintain than conventional wind turbines. Additionally, they are easier deployed in deeper waters surrounding countries such as Portugal, Japan and the United States. Of course, airborne wind energy can also be deployed onshore.