Identification and Risk Control Technology of Slope Hazards in Baise Power Grid Transmission Corridor
Collecting historical disaster point from Baise City as the basic dataset for disaster susceptibility assessment,multiple disaster assessment factors are selected,including terrain,geological conditions,environmental conditions,human activities,etc.,and a disaster susceptibility assessment model that conforms to the regional characteristics of Baise City is constructed.InSAR(interferometric synthetic aperture radar)technology from satellite remote sensing into the wide area micro deformation monitoring of the power grid transmission corridor is introduced,potential geological hazards on power grid slopes using a vulnerability assessment model is identified.Based on research on geological hazard risk management,relevant geological hazard risk management measures for the slope of power grid transmission corridors are proposed.This risk assessment method combines micro deformation dynamic indicators and multiple static indicators such as disaster assessment factors,and through indicator optimization analysis,makes the model more scientific and practical.It can achieve high-precision and efficient risk identification of potential disaster points on the slopes of the power transmission corridor in Baise City and provide reasonable risk control measures.
transmission corridor slopeInSAR(interferometric synthetic aperture radar)technologyassessment of disaster susceptibilityidentification of hidden danger pointsrisk control
NETL
NSTL
万方数据
维普
