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Mapping shallow urban groundwater temperatures, a case study from Cardiff, UK
Low-enthalpy ground source heating systems can help to reduce our dependence on fossil fuels, in turn reducing greenhouse gas emissions and increasing energy security. To de-risk and support the sustainable development, regulation and management of ground source heating systems in urban areas, detai...
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| Published in: | Quarterly journal of engineering geology and hydrogeology 2017-05, Vol.50 (2), p.187-198 |
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| Main Authors: | , , , , , |
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| cites | cdi_FETCH-LOGICAL-a462t-2153506095d29456a9a49b7bbe47691b19c313bba70a55fc0c3b65637144310c3 |
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| container_issue | 2 |
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| container_title | Quarterly journal of engineering geology and hydrogeology |
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| creator | Farr, G. J Patton, A. M Boon, D. P James, D. R Williams, B Schofield, D. I |
| description | Low-enthalpy ground source heating systems can help to reduce our dependence on fossil fuels, in turn reducing greenhouse gas emissions and increasing energy security. To de-risk and support the sustainable development, regulation and management of ground source heating systems in urban areas, detailed baseline mapping of groundwater temperatures is required. Groundwater temperatures were measured in 168 monitoring boreholes primarily within a Quaternary sand and gravel aquifer in the city of Cardiff, UK. The data have been used to create the first city-wide map of shallow groundwater temperatures in the UK. This map can be used both to support development of ground source heating and to act as a detailed baseline from which to measure change. Shallow groundwater temperatures under the city were found to be 2°C warmer than the UK average groundwater temperature and this additional heat is attributed to the urban heat island. The zone of seasonal fluctuation varies from 7.1 and 15.5 m below ground level (mbgl) within the shallow Quaternary aquifer, averaging 9.5 mbgl. Deeper groundwater temperature profiles incorporating both the Quaternary and bedrock aquifers suggest that a 'zone of anthropogenic influence' exists down to about 70 mbgl. |
| doi_str_mv | 10.1144/qjegh2016-058 |
| format | article |
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J ; Patton, A. M ; Boon, D. P ; James, D. R ; Williams, B ; Schofield, D. I</creator><creatorcontrib>Farr, G. J ; Patton, A. M ; Boon, D. P ; James, D. R ; Williams, B ; Schofield, D. I</creatorcontrib><description>Low-enthalpy ground source heating systems can help to reduce our dependence on fossil fuels, in turn reducing greenhouse gas emissions and increasing energy security. To de-risk and support the sustainable development, regulation and management of ground source heating systems in urban areas, detailed baseline mapping of groundwater temperatures is required. Groundwater temperatures were measured in 168 monitoring boreholes primarily within a Quaternary sand and gravel aquifer in the city of Cardiff, UK. The data have been used to create the first city-wide map of shallow groundwater temperatures in the UK. This map can be used both to support development of ground source heating and to act as a detailed baseline from which to measure change. Shallow groundwater temperatures under the city were found to be 2°C warmer than the UK average groundwater temperature and this additional heat is attributed to the urban heat island. The zone of seasonal fluctuation varies from 7.1 and 15.5 m below ground level (mbgl) within the shallow Quaternary aquifer, averaging 9.5 mbgl. Deeper groundwater temperature profiles incorporating both the Quaternary and bedrock aquifers suggest that a 'zone of anthropogenic influence' exists down to about 70 mbgl.</description><identifier>ISSN: 1470-9236</identifier><identifier>EISSN: 2041-4803</identifier><identifier>DOI: 10.1144/qjegh2016-058</identifier><language>eng</language><publisher>Bath: Geological Society of London</publisher><subject>Anthropogenic factors ; Aquifers ; Bedrock ; Boreholes ; Cardiff Wales ; Case studies ; clastic rocks ; drilling ; Economic geology ; Energy management ; Energy policy ; Energy security ; energy sources ; Enthalpy ; environmental management ; Europe ; Fossil fuels ; geothermal energy ; geothermal exploration ; Glamorgan Wales ; Gravel ; Great Britain ; Greenhouse effect ; Greenhouse gases ; Ground level ; ground water ; Groundwater ; Groundwater temperatures ; heat capacity ; heat flow ; heat sources ; Heating ; Heating systems ; Human influences ; hydraulic conductivity ; Hydrogeology ; Mapping ; mudstone ; Profiles ; Quaternary ; Risk management ; Sand & gravel ; Seasonal variations ; Security ; sedimentary rocks ; Sustainable development ; temperature ; Temperature profile ; Temperature profiles ; thermal waters ; United Kingdom ; Urban areas ; Urban heat islands ; Wales ; Western Europe</subject><ispartof>Quarterly journal of engineering geology and hydrogeology, 2017-05, Vol.50 (2), p.187-198</ispartof><rights>GeoRef, Copyright 2022, American Geosciences Institute. Reference includes data from GeoScienceWorld @Alexandria, VA @USA @United States. Reference includes data from The Geological Society, London @London @GBR @United Kingdom</rights><rights>2017 The Author(s)</rights><rights>Copyright Geological Society Publishing House May 2017</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-a462t-2153506095d29456a9a49b7bbe47691b19c313bba70a55fc0c3b65637144310c3</citedby><cites>FETCH-LOGICAL-a462t-2153506095d29456a9a49b7bbe47691b19c313bba70a55fc0c3b65637144310c3</cites><orcidid>0000-0003-4921-8249 ; 0000-0002-0581-9627</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,780,784,4028,27924,27925</link.rule.ids></links><search><creatorcontrib>Farr, G. J</creatorcontrib><creatorcontrib>Patton, A. M</creatorcontrib><creatorcontrib>Boon, D. P</creatorcontrib><creatorcontrib>James, D. R</creatorcontrib><creatorcontrib>Williams, B</creatorcontrib><creatorcontrib>Schofield, D. I</creatorcontrib><title>Mapping shallow urban groundwater temperatures, a case study from Cardiff, UK</title><title>Quarterly journal of engineering geology and hydrogeology</title><description>Low-enthalpy ground source heating systems can help to reduce our dependence on fossil fuels, in turn reducing greenhouse gas emissions and increasing energy security. To de-risk and support the sustainable development, regulation and management of ground source heating systems in urban areas, detailed baseline mapping of groundwater temperatures is required. Groundwater temperatures were measured in 168 monitoring boreholes primarily within a Quaternary sand and gravel aquifer in the city of Cardiff, UK. The data have been used to create the first city-wide map of shallow groundwater temperatures in the UK. This map can be used both to support development of ground source heating and to act as a detailed baseline from which to measure change. Shallow groundwater temperatures under the city were found to be 2°C warmer than the UK average groundwater temperature and this additional heat is attributed to the urban heat island. The zone of seasonal fluctuation varies from 7.1 and 15.5 m below ground level (mbgl) within the shallow Quaternary aquifer, averaging 9.5 mbgl. Deeper groundwater temperature profiles incorporating both the Quaternary and bedrock aquifers suggest that a 'zone of anthropogenic influence' exists down to about 70 mbgl.</description><subject>Anthropogenic factors</subject><subject>Aquifers</subject><subject>Bedrock</subject><subject>Boreholes</subject><subject>Cardiff Wales</subject><subject>Case studies</subject><subject>clastic rocks</subject><subject>drilling</subject><subject>Economic geology</subject><subject>Energy management</subject><subject>Energy policy</subject><subject>Energy security</subject><subject>energy sources</subject><subject>Enthalpy</subject><subject>environmental management</subject><subject>Europe</subject><subject>Fossil fuels</subject><subject>geothermal energy</subject><subject>geothermal exploration</subject><subject>Glamorgan Wales</subject><subject>Gravel</subject><subject>Great Britain</subject><subject>Greenhouse effect</subject><subject>Greenhouse gases</subject><subject>Ground level</subject><subject>ground water</subject><subject>Groundwater</subject><subject>Groundwater temperatures</subject><subject>heat capacity</subject><subject>heat flow</subject><subject>heat sources</subject><subject>Heating</subject><subject>Heating systems</subject><subject>Human influences</subject><subject>hydraulic conductivity</subject><subject>Hydrogeology</subject><subject>Mapping</subject><subject>mudstone</subject><subject>Profiles</subject><subject>Quaternary</subject><subject>Risk management</subject><subject>Sand & gravel</subject><subject>Seasonal variations</subject><subject>Security</subject><subject>sedimentary rocks</subject><subject>Sustainable development</subject><subject>temperature</subject><subject>Temperature profile</subject><subject>Temperature profiles</subject><subject>thermal waters</subject><subject>United Kingdom</subject><subject>Urban areas</subject><subject>Urban heat islands</subject><subject>Wales</subject><subject>Western Europe</subject><issn>1470-9236</issn><issn>2041-4803</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><recordid>eNqF0E1LwzAYB_AgCs7p0XvAi-CieU9zlOEbbnhx55C0adfRNV3SMvbtrUz06OnhgR_Pyx-Aa4LvCeH8Ybfx1ZpiIhEW2QmYUMwJ4hlmp2BCuMJIUybPwUVKG4yppEpNwHJpu65uK5jWtmnCHg7R2RZWMQxtsbe9j7D3285H2w_Rpxm0MLfJw9QPxQGWMWzh3MaiLssZXL1fgrPSNslf_dQpWD0_fc5f0eLj5W3-uECWS9ojSgQTWGItCqq5kFZbrp1yznMlNXFE54ww56zCVogyxzlzUkimxi8ZGbspuDnO7WLYDT71ZhOG2I4rDdGaZTpTko8KHVUeQ0rRl6aL9dbGgyHYfCdmfhMzY2Kjvz36KjX_0rsf6kPKa9_mfh9iU_zdMVJlMKdEMfYF6JJ5Nw</recordid><startdate>20170501</startdate><enddate>20170501</enddate><creator>Farr, G. 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J</au><au>Patton, A. M</au><au>Boon, D. P</au><au>James, D. R</au><au>Williams, B</au><au>Schofield, D. I</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Mapping shallow urban groundwater temperatures, a case study from Cardiff, UK</atitle><jtitle>Quarterly journal of engineering geology and hydrogeology</jtitle><date>2017-05-01</date><risdate>2017</risdate><volume>50</volume><issue>2</issue><spage>187</spage><epage>198</epage><pages>187-198</pages><issn>1470-9236</issn><eissn>2041-4803</eissn><abstract>Low-enthalpy ground source heating systems can help to reduce our dependence on fossil fuels, in turn reducing greenhouse gas emissions and increasing energy security. To de-risk and support the sustainable development, regulation and management of ground source heating systems in urban areas, detailed baseline mapping of groundwater temperatures is required. 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| identifier | ISSN: 1470-9236 |
| ispartof | Quarterly journal of engineering geology and hydrogeology, 2017-05, Vol.50 (2), p.187-198 |
| issn | 1470-9236 2041-4803 |
| language | eng |
| recordid | cdi_proquest_journals_1993898764 |
| source | Lyell Collection |
| subjects | Anthropogenic factors Aquifers Bedrock Boreholes Cardiff Wales Case studies clastic rocks drilling Economic geology Energy management Energy policy Energy security energy sources Enthalpy environmental management Europe Fossil fuels geothermal energy geothermal exploration Glamorgan Wales Gravel Great Britain Greenhouse effect Greenhouse gases Ground level ground water Groundwater Groundwater temperatures heat capacity heat flow heat sources Heating Heating systems Human influences hydraulic conductivity Hydrogeology Mapping mudstone Profiles Quaternary Risk management Sand & gravel Seasonal variations Security sedimentary rocks Sustainable development temperature Temperature profile Temperature profiles thermal waters United Kingdom Urban areas Urban heat islands Wales Western Europe |
| title | Mapping shallow urban groundwater temperatures, a case study from Cardiff, UK |
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