Open-loop groundwater heat pump (GWHP) technology has experienced increased implementation throughout several parts of the world. Water is discharged into an aquifer for cooling and heating buildings, which has the potential to cause, even in the short term, significant environmental impacts associated with groundwater thermal interference, particularly in shallow aquifers. The objective of this study was to investigate alternatives to traditional drilled wells for re-injection and dispersion of water in aquifers downstream of GWHP systems. In particular, we evaluated the potential for reverse use of commercial gabion draining in various types of ground configuration, geometry, and interconnection with prefabricated vertical drain systems. Results showed the use of gabiondrains instead of re-injection wells tended to develop a Thermal Affected Zone (TAZ), which primarily affected the surficial portion of the aquifer. TAZ development served an important role in decreasing thermal feedback risks, and reduced the relative distance between abstraction and re-injection in well-doublet schemes, in cases where the abstraction occurred in deeper portions of the aquifer.
Comparison between vertical re-injection wells and commercial gabiondrains as warm water dispersers in an Open-loop Groundwater Heat Pump plant / LO RUSSO, Stefano; Taddia, Glenda; CERINO ABDIN, Elena. - In: RENDICONTI ONLINE DELLA SOCIETÀ GEOLOGICA ITALIANA. - ISSN 2035-8008. - ELETTRONICO. - 35:(2015), pp. 184-187. (Intervento presentato al convegno V Congresso Nazionale AIGA (Associazione Italiana di Geologia Applicata e Ambientale) tenutosi a Cagliari nel 29-30 Aprile 2015) [10.3301/ROL.2015.96].
Comparison between vertical re-injection wells and commercial gabiondrains as warm water dispersers in an Open-loop Groundwater Heat Pump plant
LO RUSSO, STEFANO;TADDIA, GLENDA;CERINO ABDIN, ELENA
2015
Abstract
Open-loop groundwater heat pump (GWHP) technology has experienced increased implementation throughout several parts of the world. Water is discharged into an aquifer for cooling and heating buildings, which has the potential to cause, even in the short term, significant environmental impacts associated with groundwater thermal interference, particularly in shallow aquifers. The objective of this study was to investigate alternatives to traditional drilled wells for re-injection and dispersion of water in aquifers downstream of GWHP systems. In particular, we evaluated the potential for reverse use of commercial gabion draining in various types of ground configuration, geometry, and interconnection with prefabricated vertical drain systems. Results showed the use of gabiondrains instead of re-injection wells tended to develop a Thermal Affected Zone (TAZ), which primarily affected the surficial portion of the aquifer. TAZ development served an important role in decreasing thermal feedback risks, and reduced the relative distance between abstraction and re-injection in well-doublet schemes, in cases where the abstraction occurred in deeper portions of the aquifer.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2607762
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