Bandyopadhyay, G., Gosnold, W. & Mann, M. Analytical and semi-analytical solutions for short-time transient response ground heat exchangers. Energy Build. 40, 1816-1824, doi:10.1016/j.enbuild.2008.04.005 (2008).
Bozdag, S. et al. Ground water level influence on thermal response test in Adana, Turkey. International Journal of Energy Research 32, 629-633, doi:10.1002/er.1378 (2008).
Bruno, R., Focaccia, S. & Tinti, F. Geostatistical modeling of a shallow geothermal reservoir for air conditioning of buildings. IAMG 2011, Mathematical Geosciences at the Crossroads of Theory and Practice. Salzburg. September 5 - 9 2011. (pp. 146 - 163).
Eklöf, C., Gehlin, S. TED - a Mobile Equipment for Thermal Response Test: Testing and Evaluation. (1997).De Carli, M. A computational capacity resistance model (CaRM) for vertical ground-coupled heat exchangers. Renewable energy 35, 1537-1550 (2010). Master Thesis LTU, http://epubl.luth.se/1402-1617/1997/001/
Esen, H. & Inalli, M. In-situ thermal response test for ground source heat pump system in Elazig, Turkey. Energy Build. 41, 395-401, doi:10.1016/j.enbuild.2008.11.004 (2009).
Fujii, H. et al. An improved thermal response test for U-tube ground heat exchanger based on optical fiber thermometers. Geothermics 38, 399-406, doi:10.1016/j.geothermics.2009.06.002 (2009).
Gehlin, S. Thermal Response Test - In Situ Measurements of Thermal Properties in Hard Rock. 73 (1998). Licentiate Thesis, LTU. http://epubl.luth.se/1402-1757/1998/37/
Gehlin, S. Thermal Response Test - Method Development and Evaluation. 191 (2002). Doctoral Thesis, LTU. http://epubl.luth.se/1402-1544/2002/39/
Gehlin, S. E. A. & Hellström, G. Influence on thermal response test by groundwater flow in vertical fractures in hard rock. Renewable energy 28, 2221-2238, doi:10.1016/s0960-1481(03)00128-9 (2003).
Georgiev, A., Busso, A. & Roth, P. Shallow borehole heat exchanger: Response test and charging-discharging test with solar collectors. Renewable energy 31, 971-985, doi:10.1016/j.renene.2005.06.002 (2006).
Gustafsson, A. M. Thermal response test: numerical simulations and analyses, Licentiate Thesis LTU. http://epubl.luth.se/1402-1757/2006/14/
Gustafssson, A.M. Thermal Response Tests. Influence of convective flow in groundwater filled borehole heat exchangers. Doctoral Thesis LTU. http://pure.ltu.se/portal/da/publications/thermal-response-tests(18457b30-c54b-11df-a707-000ea68e967b).html
Gustafsson, A. M., Gehlin, S. & Ashrae. in Ashrae Transactions 2008, Vol 114, Pt 1 Vol. 114 ASHRAE Transactions 416-423 (Amer Soc Heating, Refrigerating and Air-Conditioning Engs, 2008).
Gustafsson, A. M., Westerlund, L. Multi-injection rate thermal response test in groundwater filled borehole heat exchanger. Renewable Energy 35, 1061-1070 (2010).
Gustafsson, A. M., Westerlund, L. Simulation of the thermal borehole resistance in groundwater filled borehole heat exchanger using CFD technique. International journal of energy and environment. 2010 ; vol. 1, nr. 3, s. 399-410
Gustafsson, A. M., Westerlund, L. & Hellström, G. CFD-modelling of natural convection in a groundwater-filled borehole heat exchanger. Applied Thermal Engineering 30, 683-691, doi:10.1016/j.applthermaleng.2009.11.016 (2010).
Hajovsky, R. & Pies, M. TRT system for heat pumps. (Ieee Computer Soc, 2008).
Hwang, S. Evaluation of estimation method of ground properties for the ground source heat pump system. Renewable energy (2009).
Kim, S. K., Bae, G. O., Lee, K. K. & Song, Y. Field-scale evaluation of the design of borehole heat exchangers for the use of shallow geothermal energy. Energy 35, 491-500, doi:10.1016/j.energy.2009.10.003 (2010).
Lim, K., Lee, S. & Lee, C. An experimental study on the thermal performance of ground heat exchanger. Exp. Therm. Fluid Sci. 31, 985-990, doi:10.1016/j.expthermflusci.2006.10.011 (2007).
Marcotte, D. & Pasquier, P. On the estimation of thermal resistance in borehole thermal conductivity test. Renewable energy 33, 2407-2415, doi:10.1016/j.renene.2008.01.021 (2008).
Mattsson, N., Steinmann, G. & Laloui, L. Advanced compact device for the in situ determination of geothermal characteristics of soils. Energy Build. 40, 1344-1352, doi:10.1016/j.enbuild.2007.12.003 (2008).
Nagano, K., Katsura, T. & Takeda, S. Development of a design and performance prediction tool for the ground source heat pump system. Applied Thermal Engineering 26, 1578-1592, doi:10.1016/j.applthermaleng.2005.12.003 (2006).
Nagano, K., Mochida, T., Takeda, S., Domanski, R. & Rebow, M. Thermal characteristics of manganese (II) nitrate hexahydrate as a phase change material for cooling systems. Applied Thermal Engineering 23, 229-241 (2003).
Pahud, D. & Matthey, B. Comparison of the thermal performance of double U-pipe borehole heat exchangers measured in situ. Energy Build. 33, 503-507 (2001).
Roth, P., Georgiev, A., Busso, A. & Barraza, E. First in situ determination of ground and borehole thermal properties in Latin America. Renewable energy 29, 1947-1963 (2004).
Saljnikov, A., Goricanec, D., Dobersek, D., Krope, J. & Kozic, D. Thermal response test use of a borehole heat exchanger. (World Scientific and Engineering Acad and Soc, 2007).
Sanner, B., Karytsas, C., Mendrinos, D. & Rybach, L. Current status of ground source heat pumps and underground thermal energy storage in Europe. Geothermics 32, 579-588, doi:10.1016/s0375-6505(03)00060-9 (2003).
Sharqawy, M. H. et al. Energy, exergy and uncertainty analyses of the thermal response test for a ground heat exchanger. International Journal of Energy Research 33, 582-592, doi:10.1002/er.1496 (2009).
Sharqawy, M. H. et al. First in situ determination of the ground thermal conductivity for borehole heat exchanger applications in Saudi Arabia. Renewable energy 34, 2218-2223, doi:10.1016/j.renene.2009.03.003 (2009).
Sharqawy, M. H., Mokheimer, E. M. & Badr, H. M. Effective pipe-to-borehole thermal resistance for vertical ground heat exchangers. Geothermics 38, 271-277, doi:10.1016/j.geothermics.2009.02.001 (2009).
Signorelli, S., Bassetti, S., Pahud, D. & Kohl, T. Numerical evaluation of thermal response tests. Geothermics 36, 141-166, doi:10.1016/j.geothermics.2006.10.006 (2007).
Stritih, U., Rajver, D., Turgut, B. & Paksoy, H. Borehole thermal energy storage applications and in-situ thermal response test - Example from Turkey and situation in Slovenia. Strojniski Vestn.-J. Mech. Eng. 50, 328-340 (2004).
Syed Ahmad M. Said, M. A. H., Esmail M.A. Mokheimer and Mostafa H. El-Sharqawi. Feasibility of using ground-coupled condensers in A/C systems. Geothermics, 4, doi:doi:10.1016 (2010).
Wang, H. Improved method and case study of thermal response test for borehole heat exchangers of ground source heat pump system. Renewable energy 35, 727-733 (2010).
Wu, S. Y., Zhu, D. S., Li, X. F., Li, H. & Lei, J. X. Thermal energy storage behavior of Al2O3-H2O nanofluids. Thermochim. Acta 483, 73-77, doi:10.1016/j.tca.2008.11.006 (2009).