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題名 | 颱風降雨期間梨山地滑區邊坡穩定性之數值評估=Numerical Assessment of Slope Stability at Li-San Landslide during Typhoon Rainfall |
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作者 | 林德貴; 張國欽; 蘇苗彬; Lin, Der-guey; Chang, Kuo-ching; Su, Miau-bin; |
期刊 | 中華水土保持學報 |
出版日期 | 20080300 |
卷期 | 39:1 2008.03[民97.03] |
頁次 | 頁57-81 |
分類號 | 434.273 |
語文 | chi |
關鍵詞 | 降雨滲流數值分析; 集水井; 地下水水位; 穩定分析; Rainfall induced seepage analysis; Drainage well; Ground water table; Stability analysis; |
中文摘要 | 梨山地層滑動整治計畫於2002年大底完成。地滑區之地質與水文條件十分複雜,採用簡單或簡化之傳統分析方法並無法評估地滑區降雨期間實際之穏定性。一般而言,對於暴雨對邊坡穩定之影響分析大多侷限在靜態地下水水位或固定孔隙水壓之條件下來進行,而未考量地下水滲流及降雨延時之孔隙水壓變化對邊坡之影響。本研究所提之降雨滲流數值模擬方法,可即時呈現梨山地滑區趨近實際之滲流行爲及其對邊坡穩定性之影響。爲探討梨山地滑地潛勢滑動面在降雨期間之穩定性,本研究進行二維有限元素滲流分析,針對梨山地滑地東南區Y4邊坡剖面在4個颱風事件(桃芝、碧利斯、艾莉、敏督利)之降雨期間,輸入現地降雨資料及初始地下水水位,進行暫態降雨入滲數值分析。在求得上述降雨入滲分析結果後,再結合Morgenstern-Price之極限平衡邊坡穩定分析方法,可分析邊坡潛勢滑動面在降雨期間每個時階之穩定性。本研究所提之分析模式之可靠性及有效性,可藉由梨山地滑地東南區Y4邊坡剖面B11及B13地下水水位監測井之水位監測資料與數值分析結果之比對來予以確認。此外,由梨山地滑區4個颱風事件之實際驗証與分析成果,可利用降雨延時T與地滑區地下水水位變化量Δh(下标 w)之觀測值及計算值,迴歸求得兩組相近之Δh(下标 w) (T)~T關係式,供作後續相關整治工程之參考。 |
英文摘要 | The Li-San landslide Restoration Project was largely completed at the end of 2002. The geological and hydrological conditions are extremely complicated for Li-San landslide and it’s almost impossible to evaluate the actual slope stability of landslide during the rainfall merely employing conventional analysis or the simplified method. In general, the relevant analyses to slope stability are mostly restricted in the analyses of conventional type which frequently consider groundwater as a hydrostatic distribution rather than a varied groundwater table. The infiltration, seepage effect of rainfall and the pore water pressure varied with elapsed time were completely ignored in the analysis. This study proposed a numerical procedure to encompass the immediate effect of rainfall seepage on the slope stability which is commonly encountered in the engineering practice. Incorporating two dimensional finite element transient seepage analyses with limit equilibrium analysis of Morgenstern-Price slice method, this study examines the infiltration and seepage effects on the slope stability of Li-San landslide under the precipitation condition resulting from 4 typhoons events (Toraji, Bilis, Aere and Mindulle) during the typhoon season. Subsequently, the pore water pressure distribution resulted from the seepage analysis were imported into the slope stability analysis. From the numerical results, the tendency of time-dependent groundwater table variation of monitoring stations B11 and B13 are in good agreement with those from the measurements and eventually the proposed numerical procedures can be verified based on the aforementioned comparisons. In addition, according to the calculation results of 4 typhoon events at Li-San landslide, two sets of Δh(subscript w)(T)~ T regression curves can be obtained. The curves correlate the rainfall duration T with the groundwater upwelling Δh(subscript w) at Li-San landslide and can be readily furnished to provide a quick reference in engineering practice. |
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