Sort by
Refine Your Search
-
the scale of individual turbines, wind farms, or even wind farm clusters spanning hundreds of kilometers. Your research will be used in close collaboration with others in the department and international
-
Network” (AWETRAIN). Airborne Wind Energy (AWE) is a radical new technology based on tethered aircraft generating electricity from altitudes higher than conventional wind turbines. This allows
-
wind turbines, etc. Our research on anti-corrosive coating mainly covers development of novel and advanced anti-corrosive coatings, non-destructive coating performance evaluation, coating integrity
-
., 2020. Using artificial-reef knowledge to enhance the ecological function of offshore wind turbine foundations: Implications for fish abundance and diversity. Journal of Marine Science and Engineering, 8
-
is available from 01 August 2025 or later. You can submit your application via the link under 'how to apply'. Title: Bio-integrated carbon capture and utilization of flue gas CO2 to e-methane
-
Energy, ii) Wind Turbine Technology, iii) Wind Energy Systems, and iv) Power and Energy Systems. The department is internationally recognised as being in the forefront of wind energy technology and smart
-
of tethered airborne wind energy systems that operate at heights well beyond conventional wind turbines, exploiting stronger and more consistent wind resources to generate clean, renewable energy
-
for Industrialization Network” (AWETRAIN). Airborne Wind Energy (AWE) is a radical new technology based on tethered aircraft generating electricity from altitudes higher than conventional wind turbines. This allows
-
for Industrialization Network” (AWETRAIN). Airborne Wind Energy (AWE) is a radical new technology based on tethered aircraft generating electricity from altitudes higher than conventional wind turbines. This allows