It comes days after the firm unveiled designs for its first commercial scale KM2 system capable of taking AWE to utility-scale. The ground-breaking technology is set to feature in the €7.5m Norse Airborne Wind Energy Project (NAWEP), backed by the EU Innovation Fund, with a total of 12 KM2 units due for installation.
A recent white paper conducted by BVG Associates, on behalf of Airborne Wind Europe, projecting the AWE market to reach around $100bn (€92.39bn) by 2035–40 and several hundreds of billions soon after. Based on the assumption that AWE follows the same trend as the established wind turbine market 40 years ago, BVG further estimates the cumulative global deployment of AWE could reach 5GW by 2035 and at least 177GW by 2050.
Secretary General Kristian Petrick said: "We are thrilled to see two of our leading AWE technology members attracting large levels of international attention. AWE is about to become a game-changing solution unlocking large untapped wind resource at high altitudes enabling more energy to be extracted at lower carbon intensity and eventually at lower cost.
"We are inviting other potential investors to join this journey right now as we aim to help Europe and other areas of the world accelerate net-zero electricity production and security of supply."
New and disruptive AWE technology offers a series of unique benefits compared to traditional wind energy systems. Research indicates that harvestable high-altitude wind power is around 4.5 times stronger than ground level resources. AWE also allows for continuous adjustment of harvesting altitude seeking the best available wind resource. This high-capacity factor ensures a more consistent and stable energy supply alleviating intermittency issues experienced by more established renewables, and supporting future hybrid energy models.
In addition, AWE substantially reduces material consumption by up to 90%, for example replacing wind turbine towers with lightweight tethers. This has a hugely positive impact on overall costs, manufacturing, transport and logistics operations, as well as carbon footprints and environmental impact.
Another strong benefit is the versatility of AWE technology. Being scalable from a few kilowatt to several megawatt, the systems are suitable for a broad range of markets including offshore repowering, floating offshore, mountainous and remote locations.
"AWE technology has potential to drive down the levelized costs of wind energy (LCOE), through a decrease in capital costs (CAPEX) due to low material use, combined with increased capacity factor, easier logistics and quick set-up as well as the high-power density per square-kilometer," added Petrik.
"The first commercial AWE systems are already competitive in markets with diesel-based power generation, with experts estimating AWE will reach parity with established onshore wind by the mid 2030s."
