Affiliation:
1. Weather Radar Center, Korea Meteorological Administration, Seoul 07062, Republic of Korea
Abstract
Aircraft icing refers to the accumulation of ice on the surface and components of an aircraft when supercooled water droplets collide with the aircraft above freezing levels (at altitudes at which the temperature is below 0 °C), which requires vigilant monitoring to avert aviation accidents attributable to icing. In response to this imperative, the Weather Radar Center (WRC) of the Korea Meteorological Administration (KMA) has developed a real-time icing detection algorithm. We utilized 3D dual-polarimetric radar variables, 3D atmospheric variables, and aircraft icing data and statistically analyzed these variables within the icing areas determined by aircraft icing data from 2018–2022. An algorithm capable of detecting icing potential areas (icing potential) was formulated by applying these characteristics. Employing this detection algorithm enabled the classification of icing potential into three stages: precipitation, icing caution, and icing warning. The algorithm was validated, demonstrating a notable performance with a probability of detection value of 0.88. The algorithm was applied to three distinct icing cases under varying environmental conditions—frontal, stratiform, and cumuliform clouds—thereby offering real-time observable icing potential across the entire Korean Peninsula.
Reference51 articles.
1. Federal Aviation Administration (FAA) (2009). Part 25: Airworthiness Standards: Transport Category Airplanes: Appendix C. Title 14: Code of Federal Regulations.
2. A numerical weather model’s ability to predict characteristics of aircraft icing environments;Thompson;Weather Forecast.,2017
3. Toward the improvement of aircraft-icing forecasts for the continental United States;Schultz;Weather Forecast.,1992
4. Forbes, G.S., Hu, Y., Brown, B.G., Bernstein, B.C., and Politovich, M.K. (1993, January 2–6). Examination of soundings in the proximity of pilot reports of aircraft icing during STORM-FEST. Proceedings of the 5th International Conference on Aviation Weather Systems, Vienna, VA, USA.
5. Intercomparison of in-flight icing algorithms. Part I: WISP94 real-time icing prediction and evaluation program;Thompson;Weather Forecast.,1997