利用FS-InSAR技术精细监测内蒙古新井露天矿地表形变

Fine Mapping of Surface Deformation in Xinjing Open-Pit Mine,Inner Mongolia Using FS-InSAR Technique

  • 摘要: 2023-02-22,中国内蒙古自治区新井露天矿发生大面积坍塌事故,造成重大人员伤亡。为了全面获取新井露天矿的地表形变信息及灾前形变特征,采用全散射体合成孔径雷达干涉测量(full scatterer interferometric synthetic aperture radar,FS-InSAR)技术,利用2021-09-09—2022-08-11的24期哨兵1号雷达影像,对该露天矿开展了精细化监测。结果表明,对于低相干露天矿地区,FS-InSAR技术能够获取全域精细的地表形变信息,监测点密度可达4 758个/km2;2022年2月以后,坍塌体底部开始出现加速失稳的形变异常先兆特征,南帮西侧底部形变最为严重,多处形变速率超过200 mm/a,存在较大坍塌风险。卫星InSAR技术可以全面掌握露天矿的形变空间分布及灾前时序变化特征,对于矿区安全生产具有重要意义。

     

    Abstract:
    Objectives On February 22, 2023, a large area of slope collapsed in Xinjing Open-Pit Mine, Inner Mongolia Autonomous Region, China. In order to prevent this kind of disaster scientifically, it is necessary to carry out fine monitoring of slope stability in large open-pit mine, so as to obtain the temporal and spatial characteristics of slope deformation comprehensively, and take corresponding prevention measures.
    Methods The full scatterer interferometric synthetic aperture radar (FS-InSAR) technique was applied for detailed monitoring of Xinjing Open-Pit Mine, with 24 Sentinel-1 synthetic aperture radar images acquired from September 9, 2021 to August 11, 2022. Fine ground deformation of Xinjing Open-Pit Mine was obtained, and the temporal and spatial distribution characteristics of the deformation were analyzed.
    Results For the low-coherence open-pit area, the FS-InSAR technique can obtain fine surface deformation with a density of 4 758 points per km2. The deformation anomaly signal of bottom acceleration had appeared since February 2022, before the collapse occurred. The deformation at the bottom of the west side of the south slope is the most serious, with deformation rate more than 200 mm/a, and there is a collapse risk.
    Conclusions The FS-InSAR technique can fully retrieve the spatial-temporal distribution of slope deformation before collapse disaster in open-pit mines, which is of great significance for mine safety production in the future.

     

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