Error analysis of thermal response tests

Applied Energy

Volumn 109, Issue , 2013, Pages 302-311

  Witte, Henk J L ^a  

^a Groenholland Geo Energysystems   (Netherlands)

Author keywords

Borehole heat exchanger; Borehole resistance; Error analysis; Ground thermal conductivity; Infinite line source; Thermal response test

Indexed keywords

BOREHOLES; ERROR ANALYSIS; GEOTHERMAL ENERGY;

BOREHOLE HEAT EXCHANGERS; BOREHOLE RESISTANCES; GROUND THERMAL CONDUCTIVITY; LINE SOURCES; THERMAL RESPONSE TEST;

THERMAL CONDUCTIVITY OF LIQUIDS;

BOREHOLE; ENERGY EFFICIENCY; ERROR ANALYSIS; GEOTHERMAL ENERGY; PARAMETERIZATION; PUMP; SOIL PROFILE; TEMPERATURE EFFECT; TEMPERATURE GRADIENT; THEORETICAL STUDY; THERMAL CONDUCTIVITY;

EID: 84879324230     PISSN: 03062619     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apenergy.2012.11.060     Document Type: Article

References (33)

1. Gehlin S. Thermal response test, in situ measurements of thermal properties in hard rock. Licentiate Thesis, LULEå University of Technology; 1998.
2. Austin III WA. Development of an in situ system for measurement for ground thermal properties. MSc Thesis, Oklahoma State University; 1998.
3. Van Gelder AJ, Witte HJL, Kalma S, Snijders A, Wennekes RGA. In-situ Messungen der thermische Eigenschaften des Untergrunds durch Wärmeentzug. In: Hitziger T. editor, OPET Seminar " Erdgekoppelte Wärmepumpen zum heizen und Klimatisieren von Gebäuden; 1999.
4. Ingersoll L.R., Plass H.J. Theory of the ground pipe heat source for the heat pump. Heat Pip Air Condition 1948, July:119-122.
5. Carslaw H.S., Jaeger J.C. Conduction of heat in solids 1959, Clarendon Press, Oxford. 2nd ed.
6. Niven C. On a method of finding the conductivity for heat. Proc R Soc Lond A 1905, 76:34-48.
7. Stålhane B, Pyk S. Ny metod för bestämning av värmeledningskoefficienter. Teknisk Tidskrift, 28, Svenska Teknologföreningen; 1931.
8. Wagner V., Bayer P., Kübert M., Blum P. Numerical sensitivity study of thermal response tests. Renew Energy 2012, 41:245-253.
9. Witte H.J.L., van Gelder A.J., Spitler J.D. In situ measurement of ground thermal conductivity: the dutch perspective. ASHRAE Trans 2002, 108(1):263-272.
10. Chiles J.P., Delfiner P. Geostatistics: modeling spatial uncertainty 1999, Whiley, New York.
11. Bruno R, Focaccia S, Tinti F. Geostatistical modeling of a shallow geothermal reservoir for air conditioning of buildings. In: Proceeding of IAMG 2011 Salzburg, Mathematical Geosciences at the Crossroads of Theory and, Practice; 2011. p. 146-63.
12. Beier R.A., Smith M.D. Removing variable heat rate effects from borehole tests. ASHRAE Trans 2003, 109(2):463-474.
13. Beier R.A., Smith M.D. Interrupted in-situ tests on vertical boreholes. ASHRAE Trans 2005, 111(1):702-713.
14. Signorelli S., Bassetti S., Pahud D., Kohl T. Numerical evaluation of thermal response tests. Geothermics 2007, 36(2):141-166.
15. Bandos T.V., Montero á., Fernándeza E., Santandera J.L.G., Isidroa J.M., Péreza J., et al. Finite line-source model for borehole heat exchangers: effect of vertical temperature variations. Geothermics 2009, 38:263-270.
16. Lamarche L., Beauchamp B. A new contribution to the finite line-source model for geothermal boreholes. Energy Build 2007, 39(2):188-198.
17. Bauer D., Heidemann W., Müller-Steinhagen H., Diersch H.-J.G. Thermal resistance and capacity models for borehole heat exchangers. Int J Energy Res 2011, 35:312-320.
18. Bauer D., Heidemann W., Diersch H.-J.G. Transient 3D analysis of borehole heat exchanger modeling. Geothermics 2011, 40(4):250-260.
19. Bandos T.V., Montero A., Fernández de Córdoba P., Urchueguía J.F. Improving parameter estimates obtained from thermal response tests: effect of ambient air temperature variations. Geothermics 2011, 40:136-143.
20. Fujii H., Okubo H., Nishi K., Itoi R., Ohyama K., Shibata K. An improved thermal response test for U-tube ground heat exchanger based on optical fiber thermometers. Geothermics 2009, 38(4):399-406.
21. Lee C.K. Effects of multiple ground layers on thermal response test analysis and ground-source heat pump simulation. Appl Energy 2011, 88:4405-4410.
22. Ellison SLR, Rosslein M, Williams A. editors. Quantifying uncertainty in analytical measurement, 2nd ed. 2000. [EARUACHEM/CITAC Guide 4].
23. Taylor J.R. An introduction to error analysis: the study of uncertainties in physical measurements 1997, University Science Books.
24. Marcotte D., Pasquier P. On the estimation of thermal resistance in borehole thermal conductivity test. Renew Energy 2008, 33(11):2407-2415.
25. Incropera F.P., Dewitt D.P. Fundamentals of heat and mass transfer 1985, Wiley, New York. 2nd ed.
26. Witte HJL. Fluid properties correlations and mixing rules (water, monopropylene glycol and ethylene glycol). Groenholland, 2010. [Internal report].
27. Haider Kahn M. Modeling, simulation and optimization of ground source heat pump systems. BSc Thesis, Oklahoma State University; 2000.
28. Melinder å editor. Properties of secondary working fluids for indirect systems. International Institute of Refrigeration (IIR); 2010.
29. Hëllström G. Ground heat storage, thermal analysis of duct storage systems I: theory. Thesis, University of Lund, Sweden; 1991.
30. Effron B., Tibshirani R.J. An introduction to the bootstrap 1993, Chapman & Hall.
31. Beier R.A. Vertical temperature profile in ground heat exchanger during in situ test. Renew Energy 2011, 36:1578-1587.
32. Raymond J., Therrien R., Gosselin L. Borehole temperature evolution during termal response test. Geothermics 2011, 40:69-78.
33. Witte HJL. Geothermal response tests using controlled multi-power level heating and cooling pulses (MPL-HCP): Qauntifying ground warer effects on heat transport around a borehole heat exchanger. In: Stiles editor. The Tenth International Conference on Thermal Energy Storage, Ecostock 2006 Proceedings. Stockton College New Jersey (USA), May 31-June 2, 2006.