西南交通大学学报
西南交通大學學報
서남교통대학학보
JOURNAL OF SOUTHWEST JIAOTONG UNIVERSITY
2014年
3期
399-405
,共7页
夏敏%任光明%马鑫磊%董清志%黄帮芝%孙仁先
夏敏%任光明%馬鑫磊%董清誌%黃幫芝%孫仁先
하민%임광명%마흠뢰%동청지%황방지%손인선
滑坡%渗流%渗透系数%库水位升降
滑坡%滲流%滲透繫數%庫水位升降
활파%삼류%삼투계수%고수위승강
landslide%seepage%seepage coefficient%fluctuation of reservoir water level
为探讨库水位升降对滑坡地下水的动态作用机理,以三峡库区石榴树包滑坡为例,采用有限元法,模拟了5种工况下库水位升降速率及不同渗透系数下滑坡体内地下水的暂态渗流场特征。研究结果表明:滑坡体内地下水渗流浸润线受水位升降速率与坡体渗透系数的共同影响;库水位上升条件下,当滑体渗透系数大于1×10-4 m/s,且水位上升速率小于渗透系数时,滑坡体表现为蓄水同步型。库水位下降条件下,当滑体渗透系数小于1×10-6m/s时,库水位发生骤降;渗透系数介于1×10-4~1×10-5m/s之间时,库水位表现为缓降;渗透系数大于1×10-4 m/s时,渗流浸润线与库水位保持同步下降。
為探討庫水位升降對滑坡地下水的動態作用機理,以三峽庫區石榴樹包滑坡為例,採用有限元法,模擬瞭5種工況下庫水位升降速率及不同滲透繫數下滑坡體內地下水的暫態滲流場特徵。研究結果錶明:滑坡體內地下水滲流浸潤線受水位升降速率與坡體滲透繫數的共同影響;庫水位上升條件下,噹滑體滲透繫數大于1×10-4 m/s,且水位上升速率小于滲透繫數時,滑坡體錶現為蓄水同步型。庫水位下降條件下,噹滑體滲透繫數小于1×10-6m/s時,庫水位髮生驟降;滲透繫數介于1×10-4~1×10-5m/s之間時,庫水位錶現為緩降;滲透繫數大于1×10-4 m/s時,滲流浸潤線與庫水位保持同步下降。
위탐토고수위승강대활파지하수적동태작용궤리,이삼협고구석류수포활파위례,채용유한원법,모의료5충공황하고수위승강속솔급불동삼투계수하활파체내지하수적잠태삼류장특정。연구결과표명:활파체내지하수삼류침윤선수수위승강속솔여파체삼투계수적공동영향;고수위상승조건하,당활체삼투계수대우1×10-4 m/s,차수위상승속솔소우삼투계수시,활파체표현위축수동보형。고수위하강조건하,당활체삼투계수소우1×10-6m/s시,고수위발생취강;삼투계수개우1×10-4~1×10-5m/s지간시,고수위표현위완강;삼투계수대우1×10-4 m/s시,삼류침윤선여고수위보지동보하강。
In order to investigate the impact of reservoir water level fluctuation on the dynamic responses of groundwater seepage of landslide. The transient seepage of Shiliushubao landslide as a research object was discussed under five different water level fluctuation rates and different seepage coefficient magnitudes. The research results show that the groundwater seepage line is affected by water level fluctuation rate and permeability coefficient. Under the condition of the rise of water level, landslide appears generally as a synchronous impoundment type when permeability coefficient is above 1 × 10 -4 m/s and greater than the water level rising rate. Under the condition of the descend of water level,seepage line will be characterized by a sudden drawdown when the permeability coefficient is less than 1 × 10 -6 m/s;reservoir water level will drop slowly if the coefficient is from 1 × 10 -4 to 1 × 10 -5 m/s;and seepage line and reservoir water level will descend synchronously as the coefficient exceeds 1 × 10 -4 m/s.