| 由声雷达回波反演湍流场结构系数 |
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| 引用本文: | 潘乃先.由声雷达回波反演湍流场结构系数[J].应用气象学报,1997,8(4):477-484. |
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| 作者姓名: | 潘乃先 |
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| 作者单位: | 1.北京大学地球物理系 |
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| 摘 要: | 定量测量声雷达回波强度可以导出大气温度结构系数(Ct 2)和速度结构系数(Cv2)。文章简要回顾和评述了过去的工作,并讨论了逾量衰减、风和湍流等因素对该测量的影响。研究表明:逾量衰减主要是由速度场的不均匀性所造成。其次,风场也有不可忽视的衰减作用,在风速达10 m/s时,引起的衰减达50%以上。最后给出了改进后的声雷达方程和反演Ct2和Cv2的方法。初步的试验结果对理论的应用是支持的。
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| 关 键 词: | 湍流结构系数 声雷达方程 逾量衰减 风衰减 |
Retrieval of Turbulent Structure Coefficients from Sodar Echo |
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| Pan Naixian.Retrieval of Turbulent Structure Coefficients from Sodar Echo[J].Quarterly Journal of Applied Meteorology,1997,8(4):477-484. |
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| Authors: | Pan Naixian |
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| Institution: | 1.(Peking University, Beijing 100871) |
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| Abstract: | Temperature structure coefficient ( C 2 t) and velocity structure coefficient (C 2 v) can be deduced from the sodar return intensity. The past researches are reviewed briefly. The impacts of these physical factors, such as excess attenuation, wind and turbulence etc on the echo measurements are discussed. The results show that the excess attenuation of acoustic wave is mainly caused by the velocity fluctuation. On the other hand, the wind also causes some echo attenuation. When wind speed reaches 10 m/s, the received energy at antenna will reduce about half. At the end, a modified sodar equation and the retrieval method of C 2 t and C 2 v are given. The primary tests indicate a qualitative agreement with the theory presented here. |
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| Keywords: | Turbulent structure coefficient Sodar equation Excess attenuation Wind caused attenuation |
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