闪电通道垂直假定引起回击辐射场峰值计算误差分析被引量：3

Analysis of Calculated Return-Stroke Radiation Field Peak Errors Induced by Vertical-Path Assumption

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摘要利用高速摄像系统观测的闪电通道和利用分形方法模拟的闪电通道,分析了通道的垂直假定对回击辐射场峰值计算的影响。结果表明,回击电磁场随方位角的变化非常明显,在距闪电通道几百米距离,误差可达2倍;在1km处,闪电通道的垂直假定对时域回击辐射场峰值计算的相对误差最大为50%左右,平均小于10%。随距离的增加,误差逐渐减小。 Using the lightning path taken by the high speed camera and the simulated lightning path, the electric field peak errors are analyzed by assuming the lightning path being vertical. The results show that at close distances, the field waveform is dependent strongly on azimuth; at distance of several hundreds, e the ratio of the peak error values at two azimuths may be bigger than 2; at the distance of 1 km, the mean error is less than 10% with a maximum value of 50%. The calculated relative error decreases with the increasing of distance.

作者甘文强李性太张其林

机构地区贵州省气象局雷电防护中心南京信息工程大学大气物理学院

出处《气象科技》北大核心 2009年第6期748-752,共5页 Meteorological Science and Technology

关键词回击辐射场弯曲通道误差分析 return stroke radiation field bending path error analysis

分类号 P412.1 [天文地球—大气科学及气象学] O431 [机械工程—光学工程]

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参考文献13

1Hill R D. Analysis of irregular paths of lightning channnels [J]. J GeophysResearch, 1968, 73(6): 1897-1906.
2Hill R D. Electromagnetic radiation from erratic paths of lightning strokes [J]. J Geophys Research, 1969, 74(8): 1922- 1929.
3LeVine D M, R Meneghini. Simulation of radiation from lightning return stroke: the effects of tortuosity [J]. Radio Science, 1978, 13(5): 801-809.
4Vecchi G, Labate D, Canavero F. Fractal approach to lightning radiation onatortuous[J]. Radio Science, 1993, 29(4):691 - 627.
5任顺平,迟建平,庄洪春,刘来存.分形闪道及其电磁场辐射仿真[J].电网技术,1999,23(4):11-14. 被引量：9
6祝宝友,马明,陶善昌.地闪回击通道几何结构对VLF/VHF辐射场特征的影响[J].高原气象,2003,22(3):246-251. 被引量：4
7Wang D, Takagi N, Liu X, et al. Luminosity characteristics of multiple dart leader/return stroke sequences measured with a high speed digital image system [J]. Geophysical Research Letters, 2004, 31, L02111, doi:10. 1029/2003GL018613.
8Nagano N M,Nagatani H, Nakada T, et al .Mcasurcment of the velocity change of a lightning return stroke with height [J]. Res Lett Atmos Electr, 1987, 7: 25-28.
9Hussein A M, Janischewsky J W, Chang J S, et al . Simultaneous measurement of lightning parameters for stroke to the Toronto Canadian National tower [J]. J Geophys Res, 1995, 100:8853-8861.
10Wang D, Takagi N, Watanabe T, et al. Observed leader and return-stroke propagation eharaeteristies in the bottom 400m of a rocket-triggered lightning channel [J]. J Geophys Res, 1999, 104(D12): 14369-14376.

二级参考文献12

1Weidman C D, E P Krider. The fine structure of lightning return stroke waveforms[J]. J G R, 1978, 83(C12): 6239--6247.
2Malan D J, H Collens. Progressive lightning[M]. 3, Proc.R. Soc. London Ser. A, 1937. 162, 175--203.
3Le Vine D M, R Meneghini. Simulation of radiation from lightning return strokes: The effects of tortuosity[J]. Radiao Science, 1978, 13(5): 801--809.
4Le Vine D M, J C Willett. The influence of channel geometry on the fine scale structure of radiation from lightning return strokes[J]. J G R, 1995, 100(D9):18629--18638.
5Le Vine D M, L Gesell, M Kao. Radiation from lightning return strokes over a finitely conducting earth[J]. J G R, 1986,91(D11) : 11897--11908.
6Le Vine D M, R Meneghini. Electromagnetic fields radiated from a lightning return stroke: Application of an exact solution to Maxwell's equations[J]. J G R, 1978, 83(C5) : 2377--2384.
7Uman M A. The lightning discharge[M]. San Diego, California: Acdemic Press, 1987.
8Cooray V, R E Orville. The effects of variation of current amplitude, current risetime, and return stroke velocity along the return stroke channel on the electromagnetic fields generated by return strokes[J]. J G R, 1990, 95:18617--18630.
9Brook M, N Kitagawa. Radiation from lightning discharges in the frequency range 400-1000Mc/s[J]. J G R, 1964, 62:2431--2434.
10Chen S S，IEEE Trans Pattern Anal Machine Intell，1993年，15卷，10期，1087页

共引文献13

1张岩,刘福贵,汪友华,王川川,刘荣美.弯曲雷电回击通道的建模及其辐射场计算[J].电工技术学报,2013,28(S2):146-151.
2苟学强,张义军,郄秀书,董万胜.地闪回击辐射场的局地等效Hlder指数特征[J].中国电机工程学报,2006,26(3):75-78. 被引量：3
3曹冬杰,张广庶,张彤,王彦辉.平凉黄土高原地闪VHF辐射特征分析[J].高原气象,2008,27(2):365-372. 被引量：7
4苟学强,陈明理,张义军,董万胜,郄秀书.基于小波的回击辐射场的分形分析[J].兰州大学学报（自然科学版）,2008,44(3):24-27. 被引量：2
5许伟,陈水明,何金良.采用分形方法的二维和三维雷电放电仿真模型及其应用(英文)[J].中国电机工程学报,2010,30(22):127-134. 被引量：9
6张其林,冯建伟,赵中阔,卞建春.分形闪电通道模型的建立及其电磁辐射特征[J].大气科学学报,2010,33(6):719-724. 被引量：10
7陈绪荃,赵文光.闪电回击场多尺度分析[J].强激光与粒子束,2013,4(5):1288-1292. 被引量：1
8陈方平,祁铮.基于分形思想的闪电模拟与仿真[J].计算机应用,2013,33(A02):218-219. 被引量：1
9郑殿春,丁宁,沈湘东,赵大伟,郑秋平,魏红庆.基于分形理论的尖-板电极短空气隙放电现象[J].物理学报,2016,65(2):241-247. 被引量：12
10张陈擎宇,陈德明.牵引变电所三维演示培训系统的研究与实现[J].电气自动化,2018,40(1):74-76. 被引量：2

同被引文献22

1ZHANG GuangShu1,WANG YanHui1,QIE XiuShu2,ZHANG Tong1,ZHAO YuXiang1,3,LI YaJun1 & CAO DongJie11 Laboratory for Climate Environment and Disasters of Western China,Cold and Arid Regions Environmental and Engineering Research Institute,Chinese Academy of Sciences,Lanzhou 730000,China,2 Laboratory for Middle Atmosphere and Global Environment Observation(LAGEO),Institute of Atmospheric Physics,Chinese Academy of Sciences,Beijing 100029,China,3 Department of Physics,Tianshui Normal College,Tianshui 741001,China.Using lightning locating system based on time-of-arrival technique to study three-dimensional lightning discharge processes[J].Science China Earth Sciences,2010,53(4):591-602. 被引量：23
2张其林,郄秀书,孔祥贞,周筠珺,杨静,张廷龙,冯桂力,肖庆复.人工引发闪电和自然闪电回击电流波形的对比分析[J].中国电机工程学报,2007,27(6):67-71. 被引量：21
3孙萍,吴璞三,周照宗,周锡忠.雷电流陡度与幅值的相关性初探[J].浙江电力,2007,26(1):4-5. 被引量：18
4Gerald V.Cooray.The lightning flash[M].London:Institution of Electrical Engine,2003.
5Plooster M N.Numerical simulation of sparkdischarges in air[J].Physics of Fluid,1971,14:2111-2123.
6Jurenka H,Barreto E.Electron waves in theelectrical breakdown of gases with application tothe dart deader in lightning[J].Journal ofGeophysical Research,1985,90:6219-6224.
7Little P F.Transmission line representation of alightning return stroke[J].Journal of AppliedPhysics,1978,11:1893-1910.
8Lin Y T,Uman M A.Lightning return strokemodel[J].Journal of Geophysical Research,1980,85:1571-1583.
9张其林,郄秀书,张廷龙,赵阳,杨静.雷电流波形的观测及沿通道时空分布的数值模拟[J].电子学报,2008,36(9):1829-1832. 被引量：12
10张静哲.浅谈雷电监测及其预防[J].今日科苑,2009(15):116-116. 被引量：2

引证文献3

1于纪雷,田杨萌,田彩霞,郑永红.雷电回击模型的研究[J].北京信息科技大学学报（自然科学版）,2012,27(1):85-88. 被引量：4
2李维,王洪林.计及建筑物不同位置、高度对雷电回击电磁场的影响及对配网运维重要性研究[J].电瓷避雷器,2019(1):120-125. 被引量：1
3刘银萍,李紫珣,董洋,严飞.闪电信号的特征分析与LabVIEW实现[J].微型机与应用,2017,36(11):85-87.

二级引证文献5

1张曙霞,彭丹.基于自然雷电的甚低频传播特性分析[J].指挥控制与仿真,2015,37(5):52-56.
2陈炜炜,王磊,詹跃东,周懋坤.雷电回击通道电流影响因子仿真分析[J].电子测量技术,2019,42(2):1-5. 被引量：1
3练庆南.对10kV配电线路雷电感应过电压模拟实验的探讨[J].现代信息科技,2019,3(14):44-45. 被引量：1
4徐云江,陈炜炜,王磊,陈柯豪.考虑土壤电导率分层时的雷电时域水平场估算方法研究[J].电瓷避雷器,2020(4):21-28.
5于振国.针对配网雷电定位精度应用比探讨[J].电器工业,2022(3):28-30.

1苟学强,陈明理,张义军,董万胜,郄秀书.基于小波的回击辐射场的分形分析[J].兰州大学学报（自然科学版）,2008,44(3):24-27. 被引量：2
2Jun WANG,Jue-yi SUI,Hong-ya ZHANG,Pang-pang CHEN,Faye HIRSHFIELD.Mechanisms of ice accumulation in a river bend-an experimental study[J].International Journal of Sediment Research,2012,27(4):521-537. 被引量：2
3苟学强,张义军,董万胜,郄秀书.基于小波的地闪首次回击辐射场的多重分形分析[J].地球物理学报,2007,50(1):101-105. 被引量：13
4E. N. Maraj,Noreen Sher Akbar,S. Nadeem.Mathematical study for peristaltic flow of Williamson fluid in a curved channel[J].International Journal of Biomathematics,2015,8(1):59-68. 被引量：1
5周正华,吴惟廉,孙茂斌,刘泉,杨程.滦县M_L=4.8地震的局部多台数字记录[J].地震工程与工程振动,2004,24(4):8-12. 被引量：2
6付昱华.分形方法导出改进的牛顿第二定律及万有引力定律[J].中国工程科学,2003,5(6):55-58. 被引量：2
7杜向润.汾河水库以洪峰推算洪量法预估入库洪水量[J].山西水利科技,2003(2):1-3.
8苟学强,张义军,郄秀书,董万胜.地闪回击辐射场的局地等效Hlder指数特征[J].中国电机工程学报,2006,26(3):75-78. 被引量：3
9S. Hina,T. Hayat,M. Mustafa,A. Alsaedi.Peristaltic transport of pseudoplastic fluid in a curved channel with wall properties and slip conditions[J].International Journal of Biomathematics,2014,7(2):63-78. 被引量：2
10刘鑫,肖忠祥.大阻尼检波器阻尼比测试研究[J].西安石油大学学报（自然科学版）,2014,29(3):103-105.

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闪电通道垂直假定引起回击辐射场峰值计算误差分析被引量：3

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闪电通道垂直假定引起回击辐射场峰值计算误差分析被引量：3