基于激光测风雷达的广汉机场一次锋面大风分析OA
Analysis of a Cold Front Strong Wind at Guanghan Airport Based on Doppler Wind Lidar
低空飞行活动极易受到复杂风场影响,故低空风精细化监测预警技术被民航气象部门高度关注.利用激光测风雷达、机场自动观测设备及再分析资料对广汉机场2021年12月26日一次锋面大风过程进行分析.结果表明,激光测风雷达能够清晰反映出冷空气影响机场时,地面大风在低空急流减弱后约4~6 h出现,动量下传与垂直运动变化具有明显的不均匀性.下沉运动有利于低空急流动量下传导致地面风速增大,上升运动阻碍动量下传导致地面大风间歇.激光测风雷达12°仰角PPI扫描可以提前1.0~1.5 h对机场下滑道及地面可能出现的大风进行预警.锋后残余冷空气的入侵造成了机场二次起风,预报大风时需加以关注.激光测风雷达能显著提升低空风场演变过程的监测精细度,本研究可为保障低空飞行安全和效率提供参考.
Low-altitude flight activities are highly susceptible to complex wind fields,so civil aviation me-teorological departments place significant emphasis on refined monitoring and early warning technologies of low-altitude winds.This study analyzes a cold front strong wind case at Guanghan Airport on 26 December 2021,by using the data from Doppler wind lidar and airport automatic observation equipment,as well as reanalysis data.The results indicate that the Doppler wind lidar can clearly capture that during the influ-ence of cold air,surface strong winds occur approximately 4-6 h after the low-level jet weakens,with sig-nificant in homogeneity in downward momentum transfer and vertical motion changes.Sinking motion en-hances the downward momentum transfer of the low-level jet,which result in increased surface wind speeds,while upward motion hinders downward momentum transfer,leading to intermittent surface strong winds.The 12° PPI scanning of the Doppler wind lidar can provide early warnings of potential strong winds along the glide path and at the surface 1.0-1.5 h in advance.The intrusion of residual cold air behind the front in the study case caused a secondary wind event,which should be taken into account when forecasting strong winds.This study demonstrates that Doppler wind lidar can significantly improve the monitoring precision of low-altitude wind field evolution,and could provide valuable insights for ensur-ing the safety and efficiency of low-altitude flight operations.
张琬涓;吴俊杰;张博义
中国民用航空西南地区空中交通管理局云南分局,昆明 650200||中国民用航空飞行学院航空气象学院,四川广汉 618300中国民用航空飞行学院航空气象学院,四川广汉 618300北京莱维塞尔科技有限公司,北京 101318
天文与地球科学
激光测风雷达锋面大风动量下传
Doppler wind lidarcold front strong winddownward momentum transport
《气象》 2026 (3)
348-357,10
中国气象局航空气象重点开放实验室项目(HKQXM-2024014)资助
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