Yuanyuan Zhang, Zhao Liu, Zaimao Luan, Xuefen Cao, Fanhui Meng, Lin Song
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引用次数: 0
摘要
应用广东省雷电综合观测实验基地(GCOELD)的人工触发雷电实验数据,分析了雷电电磁场沿真实地表的传播效应。与高程模型(EM)相比,验证了有限差分时域(FDTD)修正雷电定位系统(LLS)误差的准确性。结果表明,当电磁场在真实地表传播时,其波形和时延会受到很大影响。随着粗糙度的增加,场波形的时间延迟也会变大。当雷电波在高而尖锐的地形上传播时,由于波的反射和变异,波前电场会增强。在雷击点附近,垂直电场值的峰值在静电屏蔽效应的作用下明显下降。FDTD 计算出的最大时延为 8.34 μs,而 EM 计算出的最大时延为 6.55 μs。在选定的 9 个雷击点中,有 8 个被 EM 正向修正,5 个被 FDTD 正向修正。FDTD 和 EM 均可用于 GCOELD 周围真实地表引起的 LLS 误差修正,但 EM 在这种情况下比 FDTD 更有效。
Propagation effect of lightning electromagnetic field along real ground surface and its validation on correcting lightning location system errors
Artificially triggered lightning experimental data from Guangdong Comprehensive Observation Experimental Base on Lightning Discharge (GCOELD) was applied to analyze the propagation effect of lightning electromagnetic field along the real ground surface. The accuracy of the finite-difference time-domain (FDTD) on correcting lightning location system (LLS) errors was validated compared with the Elevation Model (EM). Results show that the wave-shape and time-delay of electromagnetic fields can be significantly affected when they propagate over the real ground surface. The time-delay of the field waveform become larger with an increasing roughness. The wavefront electric field is enhanced due to the reflection and variant of the wave when lightning waves propagate across the high and sharp terrain. Near the lightning strokes, the peak of vertical electric value decreases significantly with the electrostatic shielding effect. The max time delay calculated by FDTD is 8.34 μs; while that by EM is 6.55 μs. In the selected nine lightning stroke points, eight are positively revised by EM, and five by FDTD. Both FDTD and EM can be used on LLS error revision caused by the real ground surface around GCOELD, although EM is more efficient than FDTD in this case.
期刊介绍:
The aim of the International Journal of Applied Electromagnetics and Mechanics is to contribute to intersciences coupling applied electromagnetics, mechanics and materials. The journal also intends to stimulate the further development of current technology in industry. The main subjects covered by the journal are:
Physics and mechanics of electromagnetic materials and devices
Computational electromagnetics in materials and devices
Applications of electromagnetic fields and materials
The three interrelated key subjects – electromagnetics, mechanics and materials - include the following aspects: electromagnetic NDE, electromagnetic machines and devices, electromagnetic materials and structures, electromagnetic fluids, magnetoelastic effects and magnetosolid mechanics, magnetic levitations, electromagnetic propulsion, bioelectromagnetics, and inverse problems in electromagnetics.
The editorial policy is to combine information and experience from both the latest high technology fields and as well as the well-established technologies within applied electromagnetics.
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