Understanding ice accretion on wind turbines with field data

Abstract

With the abundance of wind resources in cold climates, a significant share of the worldwide wind energy installed capacity is located in those areas. However, the advantages of cold climate operation comes with challenges associated with ice accretion. Throughout the years, alternative operational strategies have been developed to cope with these challenges. Although many strategies, such as blade heating, have been commercially available for a long time, few field studies have investigated their performance. Evaluating the performance of wind turbines in cold climates is a hard task due to the lack standards and the variability of external factors influencing turbine behaviour. In this paper, a methodology to assess the performance of wind turbines in cold climates is illustrated with a case study. This methodology aims to provide a better understanding of how ice accretion impacts wind turbine performance. This methodology was exemplified with a case study where the performance of a turbine equipped with a retrofit hot air ice protection system was analyzed over a 9-day icing event. It was found that the usage of the cold climate solution yielded an average energy gain of 159 MWh and an average potential recovery of 62%.