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Erschienen in: Bulletin of Engineering Geology and the Environment 3/2012

01.08.2012 | Original Paper

Thermal response testing of a fractured hard rock aquifer with and without induced groundwater flow

verfasst von: Heiko T. Liebel, Kilian Huber, Bjørn S. Frengstad, Randi K. Ramstad, Bjørge Brattli

Erschienen in: Bulletin of Engineering Geology and the Environment | Ausgabe 3/2012

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Abstract

This study quantifies experimentally the influence of groundwater on the thermal conductivity measurements via thermal response tests (TRT) in a fractured hard rock with low matrix permeability. An artificial groundwater flow towards a nearby well was induced by groundwater extraction and a TRT performed simultaneously. The results were compared with a TRT performed 24 days later in the same well without groundwater extraction. The effect of the groundwater flow is shown indirectly by the enhanced effective thermal conductivity and directly through the comparison of temperature profiles before and 4 h after both TRTs. Simulations in FEFLOW show that a groundwater flow velocity of 130–1,300 m d−1 through one open horizontal fracture of small volume increases the effective thermal conductivity by 11 % in the studied system.

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Literatur
Zurück zum Zitat Anderson MP (2005) Heat as a ground water tracer. Ground Water 43:951–968CrossRef Anderson MP (2005) Heat as a ground water tracer. Ground Water 43:951–968CrossRef
Zurück zum Zitat Austin WA (1998) Development of an in situ system for measuring ground thermal properties. M.Sc. thesis, Oklahoma State University, Stillwater Austin WA (1998) Development of an in situ system for measuring ground thermal properties. M.Sc. thesis, Oklahoma State University, Stillwater
Zurück zum Zitat Banks D (2008) An introduction to thermogeology: ground source heating and cooling. Blackwell, OxfordCrossRef Banks D (2008) An introduction to thermogeology: ground source heating and cooling. Blackwell, OxfordCrossRef
Zurück zum Zitat Boge K, Åndal T, Kjølberg R (2002) Final report for the pregrouting at the T-Baneringen tunnel (stage one, Ullevål-Nydalen). Norwegian Public Roads Administration, Tunnels for the citizens, Report no. 16, pp 1–28 Boge K, Åndal T, Kjølberg R (2002) Final report for the pregrouting at the T-Baneringen tunnel (stage one, Ullevål-Nydalen). Norwegian Public Roads Administration, Tunnels for the citizens, Report no. 16, pp 1–28
Zurück zum Zitat Chiasson AD, Rees SJ, Spitler JD (2000) A preliminary assessment of the effects of groundwater flow on closed-loop ground source heat pump systems, USA. American Society of Heating, Refrigerating and Air-Conditioning Engineers, Atlanta Oklahoma State University, Stillwater Chiasson AD, Rees SJ, Spitler JD (2000) A preliminary assessment of the effects of groundwater flow on closed-loop ground source heat pump systems, USA. American Society of Heating, Refrigerating and Air-Conditioning Engineers, Atlanta Oklahoma State University, Stillwater
Zurück zum Zitat Diersch HJG (2009) FEFLOW reference manual. Institute for Water Resources Planning and Systems Research, Berlin, p 292 Diersch HJG (2009) FEFLOW reference manual. Institute for Water Resources Planning and Systems Research, Berlin, p 292
Zurück zum Zitat Domenico PA, Schwartz FS (1998) Physical and chemical hydrogeology. Wiley, New York Domenico PA, Schwartz FS (1998) Physical and chemical hydrogeology. Wiley, New York
Zurück zum Zitat Eskilson P, Hellström G, Claesson J, Blomberg T, Sanner B (2000). Earth energy designer version 2.0. Blocon software, Sweden Eskilson P, Hellström G, Claesson J, Blomberg T, Sanner B (2000). Earth energy designer version 2.0. Blocon software, Sweden
Zurück zum Zitat Fan R, Jiang YQ, Yao Y, Shiming D, Ma ZL (2007) A study on the performance of a geothermal heat exchanger under coupled heat conduction and groundwater advection. Energy 32:2199–2209CrossRef Fan R, Jiang YQ, Yao Y, Shiming D, Ma ZL (2007) A study on the performance of a geothermal heat exchanger under coupled heat conduction and groundwater advection. Energy 32:2199–2209CrossRef
Zurück zum Zitat Fujii H, Itoi R, Fujii J, Uchida Y (2005) Optimizing the design of large-scale ground-coupled heat pump systems using groundwater and heat transport modelling. Geothermics 34:347–364CrossRef Fujii H, Itoi R, Fujii J, Uchida Y (2005) Optimizing the design of large-scale ground-coupled heat pump systems using groundwater and heat transport modelling. Geothermics 34:347–364CrossRef
Zurück zum Zitat Gehlin S (1998) Thermal response test. In situ measurements of thermal properties in hard rock. Licentiate thesis, Luleå University of Technology, 37, p 73 Gehlin S (1998) Thermal response test. In situ measurements of thermal properties in hard rock. Licentiate thesis, Luleå University of Technology, 37, p 73
Zurück zum Zitat Gehlin S (2002) Thermal response test. Method development and evaluation. Doctoral thesis, Luleå University of Technology, 2002:39, p 191 Gehlin S (2002) Thermal response test. Method development and evaluation. Doctoral thesis, Luleå University of Technology, 2002:39, p 191
Zurück zum Zitat Gehlin SEA, Hellström G (2003) Influence on thermal response test by groundwater flow in vertical fractures in hard rock. Renew Energy 28:2221–2238CrossRef Gehlin SEA, Hellström G (2003) Influence on thermal response test by groundwater flow in vertical fractures in hard rock. Renew Energy 28:2221–2238CrossRef
Zurück zum Zitat Gehlin SEA, Hellström G, Nordell B (2003) The influence of the thermosiphon effect on the thermal response test. Renew Energy 28:2239–2254CrossRef Gehlin SEA, Hellström G, Nordell B (2003) The influence of the thermosiphon effect on the thermal response test. Renew Energy 28:2239–2254CrossRef
Zurück zum Zitat Grant MA, Donaldson IG, Bixley PF (1982) Geothermal reservoir engineering. Academic, New York Grant MA, Donaldson IG, Bixley PF (1982) Geothermal reservoir engineering. Academic, New York
Zurück zum Zitat Gustafsson AM (2006) Thermal response test—numerical simulations and analyses. Licentiate thesis, Luleå University of Technology, 2006:14, p 141 Gustafsson AM (2006) Thermal response test—numerical simulations and analyses. Licentiate thesis, Luleå University of Technology, 2006:14, p 141
Zurück zum Zitat Gustafsson AM, Westerlund L, Hellström G (2010) CFD-modelling of natural convection in a groundwater-filled borehole heat exchanger. Appl Therm Eng 30:683–691CrossRef Gustafsson AM, Westerlund L, Hellström G (2010) CFD-modelling of natural convection in a groundwater-filled borehole heat exchanger. Appl Therm Eng 30:683–691CrossRef
Zurück zum Zitat Ingersoll LR (1948) Heat conduction—with engineering and geological application. McGraw-Hill, New York, p 278 Ingersoll LR (1948) Heat conduction—with engineering and geological application. McGraw-Hill, New York, p 278
Zurück zum Zitat Jiang YF, Woodbury AD (2006) A full-Bayesian approach to the inverse problem for steady-state groundwater flow and heat transport. Geophys J Int 167:1501–1512CrossRef Jiang YF, Woodbury AD (2006) A full-Bayesian approach to the inverse problem for steady-state groundwater flow and heat transport. Geophys J Int 167:1501–1512CrossRef
Zurück zum Zitat Lee CK, Lam HN (2009) Determination of groundwater velocity in thermal response test analysis. Proceedings of Effstock conference in Stockholm, Sweden, 14–17 June, p 8 Lee CK, Lam HN (2009) Determination of groundwater velocity in thermal response test analysis. Proceedings of Effstock conference in Stockholm, Sweden, 14–17 June, p 8
Zurück zum Zitat Lim K, Lee S, Lee C (2007) An experimental study on the thermal performance of ground heat exchanger. Exp Therm Fluid Sci 31:985–990CrossRef Lim K, Lee S, Lee C (2007) An experimental study on the thermal performance of ground heat exchanger. Exp Therm Fluid Sci 31:985–990CrossRef
Zurück zum Zitat Løset F (1981) Geological engineering experience from the sewage tunnel Lysaker–Slemmestad. Rock Blasting Conference, Norwegian Tunneling Association, Oslo, 1–31 November, p 31 Løset F (1981) Geological engineering experience from the sewage tunnel Lysaker–Slemmestad. Rock Blasting Conference, Norwegian Tunneling Association, Oslo, 1–31 November, p 31
Zurück zum Zitat Løset F (2002) Geology of the Norwegian tunnels. Norwegian Geotechnical Institute, p 90 Løset F (2002) Geology of the Norwegian tunnels. Norwegian Geotechnical Institute, p 90
Zurück zum Zitat Morland G (1997) Petrology, lithology, bedrock structures, glaciation and sea level. Important factors for groundwater yield and composition of Norwegian bedrock boreholes? Geological Survay of Norway, Rep. 97.122, p 274 Morland G (1997) Petrology, lithology, bedrock structures, glaciation and sea level. Important factors for groundwater yield and composition of Norwegian bedrock boreholes? Geological Survay of Norway, Rep. 97.122, p 274
Zurück zum Zitat Nordstrand JS (2001) Energibrønner i fjell—Vurdering av forskjellige metoder for effektuttak ved et demonstrasjonsanlegg. (Rock energy wells—assessment of different methods for energy extraction at a demonstration plant—in Norwegian). Master thesis at the Department of Geology and Mineral Resources Engineering, Norwegian University of Science and Technology, p 72 Nordstrand JS (2001) Energibrønner i fjell—Vurdering av forskjellige metoder for effektuttak ved et demonstrasjonsanlegg. (Rock energy wells—assessment of different methods for energy extraction at a demonstration plant—in Norwegian). Master thesis at the Department of Geology and Mineral Resources Engineering, Norwegian University of Science and Technology, p 72
Zurück zum Zitat Pannike S, Koelling M, Panteleit B, Reichling J, Scheps V, Schulz HD (2006) Influence of hydrogeological parameters on temperature variations due to borehole heat exchangers. Grundwasser 11:6–18CrossRef Pannike S, Koelling M, Panteleit B, Reichling J, Scheps V, Schulz HD (2006) Influence of hydrogeological parameters on temperature variations due to borehole heat exchangers. Grundwasser 11:6–18CrossRef
Zurück zum Zitat Pehme PE, Greenhouse JP, Parker BL (2007) The active line source temperature logging technique and its application in fractured rock hydrogeology. J Environ Eng Geoph 12:307–322CrossRef Pehme PE, Greenhouse JP, Parker BL (2007) The active line source temperature logging technique and its application in fractured rock hydrogeology. J Environ Eng Geoph 12:307–322CrossRef
Zurück zum Zitat Philippe M, Bernier M, Marchio D (2009) Validity ranges of three analytical solutions to heat transfer in the vicinity of single boreholes. Geothermics 38:407–413CrossRef Philippe M, Bernier M, Marchio D (2009) Validity ranges of three analytical solutions to heat transfer in the vicinity of single boreholes. Geothermics 38:407–413CrossRef
Zurück zum Zitat Ramstad RK (2004) Ground source energy in crystalline bedrock—increased energy extraction by using hydraulic fracturing in boreholes. Doctoral Theses, 2004:161, Norwegian University of Sciences and Technology, p 185 Ramstad RK (2004) Ground source energy in crystalline bedrock—increased energy extraction by using hydraulic fracturing in boreholes. Doctoral Theses, 2004:161, Norwegian University of Sciences and Technology, p 185
Zurück zum Zitat Ramstad RK (2011) Grunnvarme i Norge—Kartlegging av økonomisk potensial (Ground source heat in Norway—mapping of its economical potential). NVE report, 5/2011, p 88 Ramstad RK (2011) Grunnvarme i Norge—Kartlegging av økonomisk potensial (Ground source heat in Norway—mapping of its economical potential). NVE report, 5/2011, p 88
Zurück zum Zitat Ramstad RK, Hilmo BO, Brattli B, Skarphagen H (2007) Ground source energy in crystalline bedrock-increased energy extraction using hydraulic fracturing in boreholes. Bull Eng Geol Environ 66:493–503CrossRef Ramstad RK, Hilmo BO, Brattli B, Skarphagen H (2007) Ground source energy in crystalline bedrock-increased energy extraction using hydraulic fracturing in boreholes. Bull Eng Geol Environ 66:493–503CrossRef
Zurück zum Zitat Ramstad RK, Tiarks H, Midttømme K (2008) Ground source energy—thermal conductivity map in the Oslo region. Poster presented at at the 33rd International Geologic Congress Oslo, NGU’s stand, 6–14 August 2008 Ramstad RK, Tiarks H, Midttømme K (2008) Ground source energy—thermal conductivity map in the Oslo region. Poster presented at at the 33rd International Geologic Congress Oslo, NGU’s stand, 6–14 August 2008
Zurück zum Zitat Rohr-Torp E (1994) Present uplift rates and groundwater potential in Norwegian hard rocks. Geol Surv Nor Bull 426:47–52 Rohr-Torp E (1994) Present uplift rates and groundwater potential in Norwegian hard rocks. Geol Surv Nor Bull 426:47–52
Zurück zum Zitat Sanner B, Hellström G, Spitler J, Gehlin S (2005) Thermal Response Test—current status and world-wide application. In: Proceedings World Geothermal Congress, Antalya, Turkey, p 9 Sanner B, Hellström G, Spitler J, Gehlin S (2005) Thermal Response Test—current status and world-wide application. In: Proceedings World Geothermal Congress, Antalya, Turkey, p 9
Zurück zum Zitat Signorelli S, Bassetti S, Pahud D, Kohl T (2007) Numerical evaluation of thermal response tests. Geothermics 36:141–166CrossRef Signorelli S, Bassetti S, Pahud D, Kohl T (2007) Numerical evaluation of thermal response tests. Geothermics 36:141–166CrossRef
Zurück zum Zitat Wang H, Qi C, Du H, Gu J (2009) Thermal performance of borehole heat exchanger under groundwater flow: a case study from Baoding. Energy and Build 41:1368–1373CrossRef Wang H, Qi C, Du H, Gu J (2009) Thermal performance of borehole heat exchanger under groundwater flow: a case study from Baoding. Energy and Build 41:1368–1373CrossRef
Zurück zum Zitat Witte H (2002) Ground thermal conductivity testing: effects of groundwater on the estimate. Abstract. 3. Kolloquium des Arbeitskreises Geothermik der DGG, Aachen, Germany, 03–04.10 Witte H (2002) Ground thermal conductivity testing: effects of groundwater on the estimate. Abstract. 3. Kolloquium des Arbeitskreises Geothermik der DGG, Aachen, Germany, 03–04.10
Zurück zum Zitat Witte H (2007) Advances in geothermal response testing. In: Paksoy HÖ (ed) Thermal energy storage for sustainable energy consumption. Springer, Netherlands, pp 177–192CrossRef Witte H (2007) Advances in geothermal response testing. In: Paksoy HÖ (ed) Thermal energy storage for sustainable energy consumption. Springer, Netherlands, pp 177–192CrossRef
Metadaten
Titel
Thermal response testing of a fractured hard rock aquifer with and without induced groundwater flow
verfasst von
Heiko T. Liebel
Kilian Huber
Bjørn S. Frengstad
Randi K. Ramstad
Bjørge Brattli
Publikationsdatum
01.08.2012
Verlag
Springer-Verlag
Erschienen in
Bulletin of Engineering Geology and the Environment / Ausgabe 3/2012
Print ISSN: 1435-9529
Elektronische ISSN: 1435-9537
DOI
https://doi.org/10.1007/s10064-012-0422-y

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