Abstract
Phase change material (PCM) is a substance that can absorb or release sufficient latent heat at phase transition. By encapsulating phase change paraffin in hollow steel balls in the concrete, an energy pile with PCM was innovatively produced to improve energy efficiency for the ground heat pumping system. Laboratory tests were carried out on both PCM energy pile and traditional concrete pile to evaluate the thermo mechanical performance. Two piles were heated and cooled through inside tubes at a constant flow rate. The laboratory tests on the two piles were symmetrical for the two horizontal directions in geometry, and heat transfer process follows conservation laws of energy. The temperature response of the pile and soil, internal strain, pile displacement, pore pressure, and soil pressure under heating-cooling cycles were examined. Compared with the traditional concrete pile, the PCM energy pile can effectively reduce the surrounding soil temperature. The use of PCM in the pile can improve the capacity of heat storage and make the pile more effective in heat exchange. Non-uniform thermal strain and accumulations of heat and irrecoverable displacement were observed in the repeated heating-cooling process. The study can provide references for the practical implication of PCM energy piles.
Highlights
The relationship between energy utilization and underground space is becoming intense because of urbanization growth in recent years [1]
Since piles are widely used in underground space as foundations, support structures of excavation, and foundations to restrain settlement of tunnel station [2], researchers have proposed a new type of heat transfer technology by burring tubes in piles, known as energy pile or heat exchange pile
The mechanical behavior and heat transfer performance of energy piles loaded by heating in field was investigated [3]
Summary
The relationship between energy utilization and underground space is becoming intense because of urbanization growth in recent years [1]. The mechanical behavior and heat transfer performance of energy piles loaded by heating in field was investigated [3]. The thermo-mechanical behaviors, displacement changes, and heat transfer efficiency of energy piles under cyclic heating or cooling load could be examined. Laboratory tests were carried out to investigate the thermal response of an ordinary concrete pile in saturated soil [18]. A PCM energy pile was proposed to reduce the non-uniform temperature variation in the pile body and thereby reduce the range of temperature changes in soil during heat exchange. The PCM pile located in a steel model tank filled with saturated sand was heated and the results were compared with traditional concrete piles.
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