Abstract:By utilizing the parallel observation data from EZC ultrasonic wind meter and EL15-C wind speed and direction sensor from 2020 to 2021 and adopting the statistical methods such as correlation,root-mean-square deviation and consistency,this paper compares and analyzes the wind measurement performance of ultrasonic wind meter.The results show that:1)good correlation exists between ultrasonic wind meter and EL15-C wind speed and direction sensor;2)the obvious seasonal changes exist in the distribution of wind speed and direction deviations,and the distribution in summer is most concentrated;along with the increase of wind speed,the distribution of wind direction deviations tends to be concentrated;3) both the consistency rate of wind speed and that of wind direction can reach their maximum in summer and the maximum consistency rate of wind direction can be obtained in N and S orientations;relatively higher consistency rate can be achieved for light wind speed and down wind speed;and the consistency rate will become reduced gradually along with the increase of wind speed.
薛筝筝, 肖建辉, 刘青松, 张磊, 石菊红. EZC超声波测风仪和EL15-C风速风向传感器平行观测对比分析[J]. 气象水文海洋仪器, 2023, 40(2): 75-78.
Xue Zhengzheng, Xiao Jianhui, Liu Qingsong, Zhang Lei, Shi Juhong. Comparative analysis on parallel observation by EZC ultrasonic wind meter and EL15-C wind speed and direction sensor. Meteorological Hydrological and Marine Instrument, 2023, 40(2): 75-78.
Kaimal J C,Gaynor J E.Another look at sonic thermometry[J].Boundary-Layer Meteorology,1991,56(4):401-410.
[6]
Hanafusa T,Fujitani T,Kobori Y,et al.A new type sonic anemometer-thermometer for field operation[J].Papers in Meteorology & Geophysics,1982,33(1):1-19.
2023, Vol. 40 
