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Heat and mass transfers in the context of energy geostructures  119


                   Guo, L., Guo, L., Zhong, L., Zhu, Y., 2011. Thermal conductivity and heat transfer coefficient of con-
                      crete. J. Wuhan Univ. Technol. —Mat. Sci. Ed. 26 (4), 791 796.
                   Haigh, S., 2012. Thermal conductivity of sands. Geotechnique 62 (7), 617.
                   Hamilton, R., Crosser, O., 1962. Thermal conductivity of heterogeneous two-component systems. Ind.
                      Eng. Chem. Fundam. 1 (3), 187 191.
                   Hazen, A., 1892. Some physical properties of sands and gravels: with special reference to their use in fil-
                      tration. In: 24th Annual Report. Massachusetts State Board of Health, pp. 539 556.
                   Henderson, N., Brêttas, J.C., Sacco, W.F., 2010. A three-parameter Kozeny Carman generalized equa-
                      tion for fractal porous media. Chem. Eng. Sci. 65 (15), 4432 4442.
                   Hermansson, Å., Charlier, R., Collin, F., Erlingsson, S., Laloui, L., Srˇ sen Sr, M., 2009. Heat transfer in
                      soils. Water in Road Structures. Springer, pp. 69 79.
                   Hiraiwa, Y., Kasubuchi, T., 2000. Temperature dependence of thermal conductivity of soil over a wide
                      range of temperature (5 75 C). Eur. J. Soil Sci. 51 (2), 211 218.

                   Johansen, O., 1977. Thermal Conductivity of Soils (Ph.D. Thesis). U.S. Army, Cold Regions Research
                      and Engineering Laboratory.
                   Kersten, M.S., 1949. Thermal properties of soils. Bull. Univ. Minn. Inst. Technol. 52, 1 225.
                   Khalifa, A.-J.N., 2001a. Natural convective heat transfer coefficient—a review: I. Isolated vertical and
                      horizontal surfaces. Energy Convers. Manag. 42 (4), 491 504.
                   Khalifa, A.-J.N., 2001b. Natural convective heat transfer coefficient a review: II. Surfaces in two-and
                      three-dimensional enclosures. Energy Convers. Manag. 42 (4), 505 517.
                   Khalifa, M.-O.A., Wahyudi, I., Thomas, P., 2002. New extension of Darcy's law to unsteady flows. Soils
                      Found. 42 (6), 53 63.
                   Kim, K.-H., Jeon, S.-E., Kim, J.-K., Yang, S., 2003. An experimental study on thermal conductivity of
                      concrete. Cem. Concr. Res. 33 (3), 363 371.
                   Kozeny, J., 1927. Uber kapillare leitung der wasser in boden. R. Acad. Sci. Vienna Proc. Class I 136,
                      271 306.
                   Krumbein, W., Monk, G., 1943. Permeability as a function of the size parameters of unconsolidated
                      sand. Trans. AIME 151 (01), 153 163.
                   Lai, W.M., Rubin, D.H., Krempl, E., Rubin, D., 2009. Introduction to Continuum Mechanics.
                      Butterworth-Heinemann.
                   Lanciani, A., Morabito, P., Rossi, P., Barberis, F., Berti, R., Capelli, A., et al., 1989. Measurements of
                      the thermophysical properties of structural materials in laboratory and in situ: methods and instru-
                      mentation. High Temp. High Press. 21 (4), 391 400.
                   Lee, Y., Choi, M.-S., Yi, S.-T., Kim, J.-K., 2009. Experimental study on the convective heat transfer
                      coefficient of early-age concrete. Cem. Concr. Compos. 31 (1), 60 71.
                   Lewis, R.W., Morgan, K., Thomas, H., Seetharamu, K., 1996. The Finite Element Method in Heat
                      Transfer Analysis. Wiley.
                   Lorentz, H., 1952. Theory of Electrons. Dover Publications, New York.
                   Loveridge, F., 2012. The Thermal Performance of Foundation Piles Used as Heat Exchangers in Ground
                      Energy Systems. (Ph.D. Thesis). University of Southampton
                   Lu, S., Ren, T., Gong, Y., Horton, R., 2007. An improved model for predicting soil thermal conductiv-
                      ity from water content at room temperature. Soil Sci. Soc. Am. J. 71 (1), 8 14.
                   Makowski, M.W., Mochlinski, K., 1956. An evaluation of two rapid methods of assessing the thermal
                      resistivity of soil. Proc. IEE Part A Power Eng. 103 (11), 453 470.
                   Martynov, G.A. (1963) Heat and Moisture Transfer in Freezing and Thawing Soils. National Research
                      Council of Canada Technical Translation, 56 pp.
                   Midttømme, K., Banks, D., Kalskin Ramstad, R., Sæther, O.M., Skarphagen, H., 2008. Ground-source
                      heat pumps and underground thermal energy storage: energy for the future. NGU Spec. Publ. 11,
                      93 98.
                   Mitchell, J.K., Soga, K., 2005. Fundamentals of Soil Behavior. Wiley, New York.
                   Morabito, P., 1989. Measurement of the thermal properties of different concretes. High Temp. High
                      Press. 21 (1), 51 59.
                   Neville, A.M., 1995. Properties of Concrete. Longman, London.
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