暴雨灾害
暴雨災害
폭우재해
TORRENTIAL RAIN AND DISASTERS
2011年
4期
328-334
,共7页
杜牧云%刘黎平%胡志群%杨川
杜牧雲%劉黎平%鬍誌群%楊川
두목운%류려평%호지군%양천
C波段双线偏振多普勒雷达%资料质量%差分反射率因子%差传播相移%差传播相移率
C波段雙線偏振多普勒雷達%資料質量%差分反射率因子%差傳播相移%差傳播相移率
C파단쌍선편진다보륵뢰체%자료질량%차분반사솔인자%차전파상이%차전파상이솔
C-band dual linear polarimetric radar%data quality analysis%differential reflectivity%differential propagation phase shift%specific differential phase
以中国气象科学研究院灾害天气国家重点实验室C波段双线偏振雷达2011年完成升级改造后观测的一次降水过程资料为例,讨论其探测资料质量及其对降水粒子的探测性能,统计分析降水回波的差分反射率因子ZDR、零滞后互相关系数ρHV(0)与信噪比SNR的关系,以及系统初始相位的稳定性,反射率因子ZH分别与差分反射率因子ZDR和差传播相移率KDP资料的一致性。结果表明:差分反射率因子ZDR及零滞后互相关系数ρHV(0)在信噪比小于15 dB时受噪声影响较大,资料变得不可信;距离雷达3 km以内的偏振参量不稳定,资料不可用。系统初始相位在观测过程中相对稳定,无明显波动。利用垂直扫描数据进行系统误差订正后的ZDR资料能较好地反映降水粒子的实际情况,而对差传播相移ΦDP分类处理后拟合的差传播相移率KDP资料也与实际情况相一致。
以中國氣象科學研究院災害天氣國傢重點實驗室C波段雙線偏振雷達2011年完成升級改造後觀測的一次降水過程資料為例,討論其探測資料質量及其對降水粒子的探測性能,統計分析降水迴波的差分反射率因子ZDR、零滯後互相關繫數ρHV(0)與信譟比SNR的關繫,以及繫統初始相位的穩定性,反射率因子ZH分彆與差分反射率因子ZDR和差傳播相移率KDP資料的一緻性。結果錶明:差分反射率因子ZDR及零滯後互相關繫數ρHV(0)在信譟比小于15 dB時受譟聲影響較大,資料變得不可信;距離雷達3 km以內的偏振參量不穩定,資料不可用。繫統初始相位在觀測過程中相對穩定,無明顯波動。利用垂直掃描數據進行繫統誤差訂正後的ZDR資料能較好地反映降水粒子的實際情況,而對差傳播相移ΦDP分類處理後擬閤的差傳播相移率KDP資料也與實際情況相一緻。
이중국기상과학연구원재해천기국가중점실험실C파단쌍선편진뢰체2011년완성승급개조후관측적일차강수과정자료위례,토론기탐측자료질량급기대강수입자적탐측성능,통계분석강수회파적차분반사솔인자ZDR、령체후호상관계수ρHV(0)여신조비SNR적관계,이급계통초시상위적은정성,반사솔인자ZH분별여차분반사솔인자ZDR화차전파상이솔KDP자료적일치성。결과표명:차분반사솔인자ZDR급령체후호상관계수ρHV(0)재신조비소우15 dB시수조성영향교대,자료변득불가신;거리뢰체3 km이내적편진삼량불은정,자료불가용。계통초시상위재관측과정중상대은정,무명현파동。이용수직소묘수거진행계통오차정정후적ZDR자료능교호지반영강수입자적실제정황,이대차전파상이ΦDP분류처리후의합적차전파상이솔KDP자료야여실제정황상일치。
Based on the large area of stratiform precipitation observation in 2011 by an upgraded C-band dual linear polarimetric radar which was installed in the State Key Laboratory of Severe Weather(LaSW),Chinese Academy of Meteorological Sciences(CAMS),the radar’s measurement quality and detection ability are presented.Differential reflectivity ZDR,cross-correlation coefficient ρHV(0) and their relationships with signal-to-noise ratio SNR respectively,the stability of radar system initial differential phase and the consistency of rainfall data are all analyzed.The results indicate that if theis less than 15dB,ZDR is greatly impacted by the noise,and ρHV(0) becomes incredible.Polarimetric variables of radial bins within a range of 3km from radar are too instable to use.The radar system is stable relatively during the observation procedure and the system initial differential phase doesn’t fluctuate obviously.The system error revised ZDR by the vertical incidence method and the specific differential phase KDP calculated from differential propagation phase shift ΦDP which is processed by the classification processing method coincide with the actual situation.
