Effect of anthropogenic heat sources in the shallow subsurface at city-scale

Effect of anthropogenic heat sources in the shallow subsurface at city-scale

Rapid rates of urbanisation are placing growing demands on cities for accommodation and transportation, with increasing numbers of basements and tunnel networks being built to meet these rising demands. Such subsurface structures constitute continuous heat sources and sinks, particularly if maintain...

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Main Authors: Kreitmair Monika J., Makasis Nikolas, Bidarmaghz Asal, Terrington Ricky L., Farr Gareth J., Scheidegger Johanna M., Choudhary Ruchi
Format: Article
Language:English
Published: EDP Sciences 2020-01-01
Series:E3S Web of Conferences
Online Access:https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/65/e3sconf_icegt2020_07002.pdf
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spelling doaj-e33b340404fb4b1f93b66dbde616ba562021-04-02T16:16:38ZengEDP SciencesE3S Web of Conferences2267-12422020-01-012050700210.1051/e3sconf/202020507002e3sconf_icegt2020_07002Effect of anthropogenic heat sources in the shallow subsurface at city-scaleKreitmair Monika J.0Makasis Nikolas1Bidarmaghz Asal2Terrington Ricky L.3Farr Gareth J.4Scheidegger Johanna M.5Choudhary Ruchi6Engineering Department, University of CambridgeEngineering Department, University of CambridgeSchool of Civil and Environmental Engineering, University of New South WalesBritish Geological Survey, KeyworthBritish Geological Survey, Cardiff UniversityBritish Geological Survey, KeyworthEngineering Department, University of CambridgeRapid rates of urbanisation are placing growing demands on cities for accommodation and transportation, with increasing numbers of basements and tunnel networks being built to meet these rising demands. Such subsurface structures constitute continuous heat sources and sinks, particularly if maintained at comfortable temperatures. At the city-scale, there is limited understanding of the effect of heat exchange of underground infrastructures with their environments, in part due to limited availability of long-term underground temperature data. The effects of underground temperature changes due anthropogenic heat fluxes can be significant, impacting ventilation and cooling costs of underground spaces, efficiency of geo-energy systems, quality and quantity of groundwater flow, and the health and maintenance of underground structures. In this paper we explore the impact of anthropogenic subsurface structures on the thermal climate of the shallow subsurface by developing a heat transfer model of the city of Cardiff, UK, utilising a recently developed semi-3D modelling approach.https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/65/e3sconf_icegt2020_07002.pdf
collection DOAJ
language English
format Article
sources DOAJ
author Kreitmair Monika J.
Makasis Nikolas
Bidarmaghz Asal
Terrington Ricky L.
Farr Gareth J.
Scheidegger Johanna M.
Choudhary Ruchi
spellingShingle Kreitmair Monika J.
Makasis Nikolas
Bidarmaghz Asal
Terrington Ricky L.
Farr Gareth J.
Scheidegger Johanna M.
Choudhary Ruchi
Effect of anthropogenic heat sources in the shallow subsurface at city-scale
E3S Web of Conferences
author_facet Kreitmair Monika J.
Makasis Nikolas
Bidarmaghz Asal
Terrington Ricky L.
Farr Gareth J.
Scheidegger Johanna M.
Choudhary Ruchi
author_sort Kreitmair Monika J.
title Effect of anthropogenic heat sources in the shallow subsurface at city-scale
title_short Effect of anthropogenic heat sources in the shallow subsurface at city-scale
title_full Effect of anthropogenic heat sources in the shallow subsurface at city-scale
title_fullStr Effect of anthropogenic heat sources in the shallow subsurface at city-scale
title_full_unstemmed Effect of anthropogenic heat sources in the shallow subsurface at city-scale
title_sort effect of anthropogenic heat sources in the shallow subsurface at city-scale
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2020-01-01
description Rapid rates of urbanisation are placing growing demands on cities for accommodation and transportation, with increasing numbers of basements and tunnel networks being built to meet these rising demands. Such subsurface structures constitute continuous heat sources and sinks, particularly if maintained at comfortable temperatures. At the city-scale, there is limited understanding of the effect of heat exchange of underground infrastructures with their environments, in part due to limited availability of long-term underground temperature data. The effects of underground temperature changes due anthropogenic heat fluxes can be significant, impacting ventilation and cooling costs of underground spaces, efficiency of geo-energy systems, quality and quantity of groundwater flow, and the health and maintenance of underground structures. In this paper we explore the impact of anthropogenic subsurface structures on the thermal climate of the shallow subsurface by developing a heat transfer model of the city of Cardiff, UK, utilising a recently developed semi-3D modelling approach.
url https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/65/e3sconf_icegt2020_07002.pdf
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