Geotechnical Considerations Associated With The Poatina Power Station Cavern

IF 0.3 Q4 ENGINEERING, GEOLOGICAL

Australian Geomechanics Journal Pub Date : 2022-12-01 DOI:10.56295/agj5745

D. Sainsbury, K. Stacey, B. Sainsbury, P. Hills

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引用次数: 1

Abstract

The Poatina Power Station Cavern was designed with a focus on the newly emerging rock mechanics theory and principles that were rapidly developing during the 1950’s and 60’s. This included measurement of the in-situ rock mass stress condition and photo-elastic analysis of the induced stress around the planned underground openings. These studies led to the adoption of many ‘firsts’ in rock mechanics that included a trapezoidal roof shape, installation of stress relieving slots and fully encapsulated grouted rebar bolts. Based on historical documentation of the construction of the cavern, a three- dimensional numerical model of the cavern construction sequence has been developed. The model is able to provide an accurate match to the observed and monitored ground conditions during construction that includes observed failure modes and instrumentation data. Based on the calibrated model outcomes, Hydro Tasmania was able to undertake a more informed review of the risks associated with the current and future ground support capacity and were able to reliably assess rehabilitation requirements for the cavern support system.

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与Poatina电站洞穴有关的岩土工程考虑

波阿蒂纳发电站洞穴的设计重点是20世纪50年代和60年代快速发展的新兴岩石力学理论和原理。这包括现场岩体应力条件的测量和计划地下开口周围诱导应力的光弹性分析。这些研究导致了岩石力学中许多“第一”的采用，包括梯形屋顶形状、应力消除槽的安装和完全封装的灌浆钢筋螺栓。基于洞室施工的历史文献，建立了洞室施工序列的三维数值模型。该模型能够在施工期间提供与观测和监测到的地面条件的精确匹配，包括观测到的故障模式和仪器数据。根据校准的模型结果，塔斯马尼亚水电公司能够对与当前和未来地面支护能力相关的风险进行更知情的审查，并能够可靠地评估洞穴支护系统的修复要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Australian Geomechanics Journal ENGINEERING, GEOLOGICAL-

CiteScore

0.40

自引率

0.00%

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