Small-scale physical modelling of vertically loaded, cyclically thermally-activated helical piles

IF 3.3 2区 工程技术 Q3 ENERGY & FUELS
Mohammadreza Bashiri , Mahmoud Ghazavi , Peter J. Bourne-Webb
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Abstract

To investigate the use of thermally-activated helical piles in shallow geothermal energy systems, a 1-g modelling study was conducted. Helical piles with either a single- or double- helix were installed in a medium dense, dry sand, and subjected to mechanical, thermal only and thermo-mechanical loading. The results indicate that during the thermal tests (1 – 3 cycles), a small upwards residual displacement was observed and pile head movements ranged between about 90% and 100% of the free expansion of the pile shaft above the shallowest helix, suggesting that the helices fixed the shaft and little restraint was offered by the surrounding soil. In the thermo-mechanical tests (30 thermal cycles), the pile head developed irrecoverable settlement as a function of the number of helices (more helices, less settlement) and initial load (higher load, greater settlement). No significant alteration in pile axial stiffness or resistance was found for piles with zero mechanical load that underwent only a few thermal cycles; however, an increase in stiffness and resistance, beyond that due to inherent variability in the test setup, was observed for piles with an initial load and following a large number of thermal cycles. The testing of thermally-activated helical piles in sand has confirmed that the response is similar to conventional piles and that thermal ratcheting effects can be managed by the application of suitable margins of safety in design and/or the use of multi-helix piles.

垂直加载循环热激活螺旋桩的小规模物理建模
为了研究热激活螺旋桩在浅层地热能源系统中的应用,我们进行了 1-g 建模研究。单螺旋或双螺旋螺旋桩被安装在中等密度的干砂中,并承受机械、仅热和热机械荷载。结果表明,在热试验(1 - 3 个周期)期间,观察到的向上残余位移很小,桩头的移动量约为最浅螺旋线上方桩轴自由膨胀量的 90% 到 100%,这表明螺旋线固定了桩轴,周围土壤的约束很小。在热机械试验(30 次热循环)中,桩头出现了不可恢复的沉降,这与螺旋数量(螺旋数量越多,沉降越小)和初始荷载(荷载越大,沉降越大)有关。对于机械荷载为零且只经历了几个热循环的桩,未发现桩的轴向刚度或阻力有明显变化;但对于有初始荷载且经历了大量热循环的桩,则观察到刚度和阻力的增加,这超出了测试装置固有的变化范围。在砂中对热激活螺旋桩进行的测试证实,其响应与传统桩基类似,而且可以通过在设计中采用适当的安全系数和/或使用多螺旋桩来控制热棘轮效应。
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来源期刊
Geomechanics for Energy and the Environment
Geomechanics for Energy and the Environment Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
5.90
自引率
11.80%
发文量
87
期刊介绍: The aim of the Journal is to publish research results of the highest quality and of lasting importance on the subject of geomechanics, with the focus on applications to geological energy production and storage, and the interaction of soils and rocks with the natural and engineered environment. Special attention is given to concepts and developments of new energy geotechnologies that comprise intrinsic mechanisms protecting the environment against a potential engineering induced damage, hence warranting sustainable usage of energy resources. The scope of the journal is broad, including fundamental concepts in geomechanics and mechanics of porous media, the experiments and analysis of novel phenomena and applications. Of special interest are issues resulting from coupling of particular physics, chemistry and biology of external forcings, as well as of pore fluid/gas and minerals to the solid mechanics of the medium skeleton and pore fluid mechanics. The multi-scale and inter-scale interactions between the phenomena and the behavior representations are also of particular interest. Contributions to general theoretical approach to these issues, but of potential reference to geomechanics in its context of energy and the environment are also most welcome.
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