Assessment of the thermal properties for the geothermal use of a permeable pavement structure for pedestrian and cycle paths

Q3 Earth and Planetary Sciences

Energetika Pub Date : 2023-01-26 DOI:10.6001/energetika.v68i1.4855

Carlos Rey-Mahía, Felipe P. Álvarez-Rabana, Luis A. Sañudo-Fontaneda

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引用次数: 0

Abstract

Sustainable Drainage Systems (SuDS) have positioned themselves as one of the most widely applied Green Infrastructure (GI) techniques for sustainable stormwater management. In recent decades, new lines of research have emerged leading to the geothermal use of SuDS. The aim is to optimise available space in cities and minimise dependence on non-renewable energy sources. Previous research has focused on determining the feasibility of combining the two technologies, both in laboratory and field studies. Other aspects such as the influence of the surface geothermal system on the quality of the water present in the SuDS were also studied. This previous research has focused mainly on permeable pavements, positioning them as one of the SuDS techniques of reference in this line of research. This article attempts to give continuity to what has been established by other authors. It studies in depth the thermal properties of a complete section of permeable pavement under different hydraulic operating conditions. To this end, a complete section of a permeable pavement has been simulated in the laboratory using Hot-Box tests as set out in different international standards. With these tests, the values of thermal transmittance and equivalent thermal conductivity were determined. The aim of this research is to establish a test procedure for the thermal properties of permeable floorings, based on standardised equipment. The aim is to better understand the heat transfer procedures inside SuDS. In this way, it will be possible to optimise the design of these in combination with surface geothermal elements.

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人行道和自行车道透水路面结构地热使用的热特性评估

可持续排水系统（SuDS）已将自己定位为可持续雨水管理中应用最广泛的绿色基础设施（GI）技术之一。近几十年来，出现了新的研究领域，导致了SuDS的地热利用。其目的是优化城市的可用空间，最大限度地减少对不可再生能源的依赖。此前的研究重点是在实验室和实地研究中确定将这两种技术结合起来的可行性。还研究了其他方面，如地表地热系统对SuDS中水质的影响。这项先前的研究主要集中在透水路面上，将其定位为这一研究领域的SuDS参考技术之一。这篇文章试图使其他作者所建立的观点具有连续性。深入研究了一整段透水路面在不同水力工况下的热性能。为此，采用不同国际标准中规定的热箱试验，在实验室中模拟了一整段透水路面。通过这些测试，确定了热透射率和等效热导率的值。这项研究的目的是建立一个基于标准化设备的可渗透地板热性能测试程序。目的是更好地了解SuDS内部的传热过程。通过这种方式，将有可能优化这些与地表地热元素相结合的设计。

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

Energetika Energy-Energy Engineering and Power Technology

CiteScore

2.10

自引率

0.00%

发文量

期刊介绍： The journal publishes original scientific, review and problem papers in the following fields: power engineering economics, modelling of energy systems, their management and optimization, target systems, environmental impacts of power engineering objects, nuclear energetics, its safety, radioactive waste disposal, renewable power sources, power engineering metrology, thermal physics, aerohydrodynamics, plasma technologies, combustion processes, hydrogen energetics, material studies and technologies, hydrology, hydroenergetics. All papers are reviewed. Information is presented on the defended theses, various conferences, reviews, etc.