电力勘测设计
電力勘測設計
전력감측설계
ELECTRIC POWER SURVEY
2015年
8期
13-14,31
,共3页
特高压线路%岩溶%高密度电法%地质雷达
特高壓線路%巖溶%高密度電法%地質雷達
특고압선로%암용%고밀도전법%지질뢰체
UHV line%karst%high density resistivity method%geological radar method
特高压线路常常需要穿越灰岩地区,灰岩区岩溶是非常常见的一种地质灾害,严重威胁到塔基稳定性。特高压线路塔基岩溶勘察问题是岩土勘测的难点,综合运用高密度电法及地质雷达等物探方法能够大大提高其工作效率及准确性。
特高壓線路常常需要穿越灰巖地區,灰巖區巖溶是非常常見的一種地質災害,嚴重威脅到塔基穩定性。特高壓線路塔基巖溶勘察問題是巖土勘測的難點,綜閤運用高密度電法及地質雷達等物探方法能夠大大提高其工作效率及準確性。
특고압선로상상수요천월회암지구,회암구암용시비상상견적일충지질재해,엄중위협도탑기은정성。특고압선로탑기암용감찰문제시암토감측적난점,종합운용고밀도전법급지질뢰체등물탐방법능구대대제고기공작효솔급준학성。
The UHV line usually need to across the limestone area, karst is one of the very common geological disasters in limestone area which is a serious threat to the stability of tower pad. Karst prospecting is very difficult on the top of the mountain. The integrated use of Geophysical techniques, such as high density resistivity method and geological radar method can greatly improve its efficiency and accuracy.
