B. Kunsuwan, T. Chalermpornchai, W. Mairaing, Wiphada Thepjanthra
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引用次数: 0
Abstract
Hydraulic fracturing (HF) in a dam is the phenomenon of crack propagation after water pressure enters and expands an existing crack. An HF numerical model was tested on an existing dam on a complex foliated rock foundations. The locations and areas of HF could be identified, leading to the development of the hydraulic fracturing index (HFI). The results revealed that the HF area mainly occurred in syncline concave areas on rock foundations. The expansion of HF significantly affected the seepage and the stability of the dam. The HF area on a studied dam mainly started to occur when the reservoir water level (RWL) reached 146.00–156.00 m mean sea level (MSL). These results agreed well with the piezometric monitoring data recorded as 148.00–149.00 m MSL. The findings supported the formulation of the HFI based on the influencing factors of the cross-valley geometry, RWL, dam height, and elastic modulus of the rock foundation. The probability of HF occurrence could be evaluated and categorized for safety evaluation into five conditions: ≤0.14 (very unlikely), 0.15–0.74 (unlikely), 0.75–1.86 (neutral), 1.87–3.10 (likely), and ≥3.10 (very likely). The HFI can be used to predict the likelihood of seepage problems due to HF in an existing earth dam.
大坝水力压裂(HF)是在水压进入并扩展现有裂缝后,裂缝扩展的现象。HF数值模型在复杂叶理岩石基础上的现有大坝上进行了测试。HF的位置和面积可以确定,从而开发水力压裂指数(HFI)。结果表明,HF区主要发生在岩石地基上的向斜凹陷区。HF的膨胀对大坝的渗流和稳定性产生了显著影响。研究大坝上的HF区域主要在水库水位(RWL)达到146.00–156.00 m平均海平面(MSL)时开始出现。这些结果与记录为148.00–149.00 m MSL的测压监测数据一致。研究结果支持了基于跨谷几何形状、RWL、坝高和岩石地基弹性模量等影响因素的HFI公式。HF发生的概率可进行评估,并将其分为五种情况进行安全评估:≤0.14(极不可能)、0.15–0.74(不太可能)、0.75–1.86(中性)、1.87–3.10(可能)和≥3.10(极有可能)。HFI可用于预测现有土坝中HF引起的渗流问题的可能性。
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