计算了降水区雨滴形状和雨滴群旋轴相对于雷达波偏振方向不同取向情况下的Z－I关系和k-I关系，并用5种衰减订正算法进行雷达回波衰减订正效果研究，结果表明，在已知小旋转椭球粒子群取向的情况下，雨强越大，降水区回波衰减的可订正厚度越小；雨强80mm/h均匀分布时，使用R2或R3订正法，5．6cm雷达回波可订正厚度在120km以上，3．2cm雷达可订正厚度为50km左右；雷达遥感降水时，有必要正确估计小旋转椭球粒子群的取向，以便选用正确的k-Z关系，提高衰减订正效果。

The relationship between attenuation coefficient, k, and radar reflectivity factor, Z, as well as that between k, Zand rainfall rate, I, is influenced by the shape of precipitating raindrops and the orientation of their rotatory axes respect to the polarization direction of the incident radar wave. Provided that the orientation of rotatory axes of poly-disperse small spheroid particles is known, correctable thickness of radar echo for attenuation depends mainly on rainrate. The heavier the rainfall rate, the thinner the correctable thickness. For an 80mm/hour precipitation uniformly distributed along a radial direction, correctable thickness of radar echo is more than 120km for 5.6cm wavelength and about 50km for 3.2cm if correction algorithm R2or R3is used. Orientation information is critically important during attenuation correction. Right k-Zrelationship must be coupled with right orientation status.