Makasis Nikolas, Narsilio Guillermo A, Bidarmaghz Asal, Johnston Ian W
Department of Infrastructure Engineering, The University of Melbourne, Parkville, Australia.
Department of Engineering, University of Cambridge, Cambridge CB2 1PZ, United Kingdom.
Data Brief. 2018 Apr 6;18:1466-1470. doi: 10.1016/j.dib.2018.04.005. eCollection 2018 Jun.
The dataset in this article is related to shallow geothermal energy systems, which efficiently provide renewable heating and cooling to buildings, and specifically to the performance of the vertical ground heat exchangers (GHE) embedded in the ground. GHEs incorporate pipes with a circulating (carrier) fluid, exchanging heat between the ground and the building. The data show the average and inlet temperatures of the carrier fluid circulating in the pipes embedded in the GHEs (which directly relate to the performance of these systems). These temperatures were generated using detailed finite element modelling and comprise part of the daily output of various one-year simulations, accounting for numerous design parameters (including different pipe geometries) and ground conditions. An expanded explanation of the data as well as comprehensive analyses on how they were used can be found in the article titled [1].
本文中的数据集与浅层地热能系统相关,该系统能有效地为建筑物提供可再生供热和制冷,具体涉及埋入地下的垂直地源热交换器(GHE)的性能。地源热交换器包含带有循环(载热)流体的管道,在地面与建筑物之间进行热交换。数据显示了在地源热交换器中埋入的管道内循环的载热流体的平均温度和入口温度(这直接关系到这些系统的性能)。这些温度是通过详细的有限元建模生成的,并且是各种为期一年的模拟的日输出数据的一部分,其中考虑了众多设计参数(包括不同的管道几何形状)和地面条件。关于这些数据的详细解释以及对其使用方式的全面分析可在题为[1]的文章中找到。
