Based on the NCEP reanalysis and conventional observation information,the circulation background and physical quantity field of the rare continuous intensive precipitation process occurred in autumn(from October 24 to...Based on the NCEP reanalysis and conventional observation information,the circulation background and physical quantity field of the rare continuous intensive precipitation process occurred in autumn(from October 24 to November 5) of 2008 in central section of Yunnan Province were analyzed and diagnosed.The results showed that the low-level cold front shear and mid-high level convergence zone maintenance constituted the main synoptic situation background of the rare continuous heavy rainfall in autumn in the middle regions of Yunnan Province.The two water vapor which came from the Bay of Bengal and the south of Indo-China Peninsula converged in the central and southern Yunnan,forming a deep moisture convergence zone.The warm and humid air climbed upward along the low-level cold air with the formation of a long period of upward motion,playing an important part in the maintenance of heavy precipitation weather process.The continuous heavy rainfall center and the weak high values of convective available potential energy(CAPE) had good corresponding indexicality.During the heavy precipitation,there were five mesoscale clouds which generated in the cold wind shear cloud belt.In this favorable context of large-scale circulation,frequent movement of the mesoscale system was the direct cause of this continuous intensive precipitation process.展开更多
格库铁路青海段大部分处于偏远无人区,且区间无轨道电路,为检测断轨与减轻维护压力,设计了基于轨道电路原理的实时断轨检测系统。利用远距离无线电(Long Range Radio,LoRa)设计链式通信系统来传输报文,并进行理论指标验证;又在均匀传输...格库铁路青海段大部分处于偏远无人区,且区间无轨道电路,为检测断轨与减轻维护压力,设计了基于轨道电路原理的实时断轨检测系统。利用远距离无线电(Long Range Radio,LoRa)设计链式通信系统来传输报文,并进行理论指标验证;又在均匀传输线基础上得到轨道电路功率估计算式;随后,搭建信号发送系统,在室内利用模拟钢轨盘验证了使用功率估计区分断轨的可行性;最后,结合室内实验和链式通信系统搭建样机,现场测试验证了轨道电路功率估计算式的准确性。实验表明:利用轨道电路功率估计可有效、准确地完成断轨检测,室内和室外功率计算最小误差分别达1.06%和5.2%。相较于传统钢轨探伤方式,更适合在无人区非集中区段部署。展开更多
基金Supported by Regional Fund Program of Natural Science Foundation of China(NSFC)(40965002)Natural Science Foundation of Yun-nan Province(2005D0078M2)
文摘Based on the NCEP reanalysis and conventional observation information,the circulation background and physical quantity field of the rare continuous intensive precipitation process occurred in autumn(from October 24 to November 5) of 2008 in central section of Yunnan Province were analyzed and diagnosed.The results showed that the low-level cold front shear and mid-high level convergence zone maintenance constituted the main synoptic situation background of the rare continuous heavy rainfall in autumn in the middle regions of Yunnan Province.The two water vapor which came from the Bay of Bengal and the south of Indo-China Peninsula converged in the central and southern Yunnan,forming a deep moisture convergence zone.The warm and humid air climbed upward along the low-level cold air with the formation of a long period of upward motion,playing an important part in the maintenance of heavy precipitation weather process.The continuous heavy rainfall center and the weak high values of convective available potential energy(CAPE) had good corresponding indexicality.During the heavy precipitation,there were five mesoscale clouds which generated in the cold wind shear cloud belt.In this favorable context of large-scale circulation,frequent movement of the mesoscale system was the direct cause of this continuous intensive precipitation process.
文摘格库铁路青海段大部分处于偏远无人区,且区间无轨道电路,为检测断轨与减轻维护压力,设计了基于轨道电路原理的实时断轨检测系统。利用远距离无线电(Long Range Radio,LoRa)设计链式通信系统来传输报文,并进行理论指标验证;又在均匀传输线基础上得到轨道电路功率估计算式;随后,搭建信号发送系统,在室内利用模拟钢轨盘验证了使用功率估计区分断轨的可行性;最后,结合室内实验和链式通信系统搭建样机,现场测试验证了轨道电路功率估计算式的准确性。实验表明:利用轨道电路功率估计可有效、准确地完成断轨检测,室内和室外功率计算最小误差分别达1.06%和5.2%。相较于传统钢轨探伤方式,更适合在无人区非集中区段部署。