This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Chen S.X. (2008), Thermal conductivity of sands, Heat and Mass Transfer, 44(10), 1241.ChenS.X.2008Thermal conductivity of sandsHeat and Mass Transfer4410124110.1007/s00231-007-0357-1Search in Google Scholar
Côté J., Konrad J.M. (2005a), Thermal conductivity of base-course materials, Canadian Geotechnical Journal, 42(1), 61–78.CôtéJ.KonradJ.M.2005aThermal conductivity of base-course materialsCanadian Geotechnical Journal421617810.1139/t04-081Search in Google Scholar
Côté J., Konrad J.M. (2005b), A generalized thermal conductivity model for soils and construction materials, Canadian Geotechnical Journal, 42(2), 443–458.CôtéJ.KonradJ.M.2005bA generalized thermal conductivity model for soils and construction materialsCanadian Geotechnical Journal42244345810.1139/t04-106Search in Google Scholar
De Vries D.A. (1963), Thermal properties of soils, In Physics of plant environment, W.R. Van Wijk (Ed.), John Wiley & Sons, New York, 210–235.De VriesD.A.1963Thermal properties of soilsInPhysics of plant environmentVan WijkW.R.John Wiley & SonsNew York210235Search in Google Scholar
Donazzi F., Occhini E., Seppi A. (1979), Soil thermal and hydrological characteristics in designing underground cables, In Proceedings of the Institution of Electrical Engineers, Vol. 126, No. 6, 506–516, IET Digital Library.DonazziF.OcchiniE.SeppiA.1979Soil thermal and hydrological characteristics in designing underground cablesIn Proceedings of the Institution of Electrical Engineers1266506516IET Digital Library10.1049/piee.1979.0119Search in Google Scholar
Dong Y., McCartney J.S., Lu N. (2015), Critical review of thermal conductivity models for unsaturated soils, Geotechnical and Geological Engineering, 33(2), 207–221.DongY.McCartneyJ.S.LuN.2015Critical review of thermal conductivity models for unsaturated soilsGeotechnical and Geological Engineering33220722110.1007/s10706-015-9843-2Search in Google Scholar
Eucken A. (1932), Heat transfer in ceramic refractory materials: Calculation from thermal conductivities of constituents, Fortchg. Gebiete Ingenieurw., B3, Forschungsheft, 16, 353–360.EuckenA.1932Heat transfer in ceramic refractory materials: Calculation from thermal conductivities of constituentsFortchg. Gebiete Ingenieurw., B3, Forschungsheft16353360Search in Google Scholar
Farouki O.T. (1981), Thermal properties of soils (No. CRREL-MONO-81-1), Cold Regions Research and Engineering Lab Hanover NH.FaroukiO.T.1981Thermal properties of soils(No. CRREL-MONO-81-1),Cold Regions Research and Engineering Lab Hanover NH10.21236/ADA111734Search in Google Scholar
Gemant A. (1952), How to compute thermal soil conductivities, Heating, Piping, and Air Conditioning, 24(1), 122–123.GemantA.1952How to compute thermal soil conductivitiesHeating, Piping, and Air Conditioning241122123Search in Google Scholar
Gori F. (1983), A theoretical model for predicting the effective thermal conductivity of unsaturated frozen soils, In Proceedings of the Fourth International Conference on Permafrost, Fairbanks (Alaska), Vol. 363.GoriF.1983A theoretical model for predicting the effective thermal conductivity of unsaturated frozen soilsIn Proceedings of the Fourth International Conference on PermafrostFairbanks (Alaska)363Search in Google Scholar
Haigh S.K. (2012), Thermal conductivity of sands. Geotechnique, 62(7), 617.HaighS.K.2012Thermal conductivity of sandsGeotechnique62761710.1680/geot.11.P.043Search in Google Scholar
He H., Zhao Y., Dyck M.F., Si B., Jin H., Lv J., Wang J.A. (2017), A modified normalized model for predicting effective soil thermal conductivity, Acta Geotechnica, 1–20.HeH.ZhaoY.DyckM.F.SiB.JinH.LvJ.WangJ.A.2017A modified normalized model for predicting effective soil thermal conductivityActa Geotechnica12010.1007/s11440-017-0563-zSearch in Google Scholar
Johansen O. (1975), Thermal conductivity of soils (No. CRREL-TL-637), Draft English Translation 637. Doctoral thesis, University of Trondheim, Norwegia, Cold Regions Research and Engineering Lab Hanover NH.JohansenO.1975Thermal conductivity of soils(No. CRREL-TL-637), Draft English Translation 637. Doctoral thesis,University of Trondheim, Norwegia, Cold Regions Research and Engineering Lab Hanover NHSearch in Google Scholar
Kersten M.S. (1949), Laboratory research for the determination of the thermal properties of soils, Technical Report 23. Research Laboratory Investigations, Eng. Experiment Station, University of Minnesota, Minneapolis.KerstenM.S.1949Laboratory research for the determination of the thermal properties of soilsTechnical Report 23. Research Laboratory Investigations, EngExperiment Station, University of MinnesotaMinneapolisSearch in Google Scholar
Lu S., Ren T., Gong Y., Horton R. (2007), An improved model for predicting soil thermal conductivity from water content at room temperature, Soil Science Society of America Journal, 71(1), 8–14.LuS.RenT.GongY.HortonR.2007An improved model for predicting soil thermal conductivity from water content at room temperatureSoil Science Society of America Journal71181410.2136/sssaj2006.0041Search in Google Scholar
Lu Y., Lu S., Horton R., Ren T. (2014), An empirical model for estimating soil thermal conductivity from texture, water content, and bulk density, Soil Science Society of America Journal, 78(6), 1859–1868.LuY.LuS.HortonR.RenT.2014An empirical model for estimating soil thermal conductivity from texture, water content, and bulk densitySoil Science Society of America Journal7861859186810.2136/sssaj2014.05.0218Search in Google Scholar
Łydżba, D. (2011). Effective properties of composites: Introduction to Micromechanics. Wroclaw University of Technology, PRINTPAP, Wroclaw.ŁydżbaD.2011Effective properties of composites: Introduction to MicromechanicsWroclaw University of Technology, PRINTPAPWroclawSearch in Google Scholar
Mickley A.S. (1951), The thermal conductivity of moist soil, Transactions of the American Institute of Electrical Engineers, 70(2), 1789–1797.MickleyA.S.1951The thermal conductivity of moist soilTransactions of the American Institute of Electrical Engineers7021789179710.1109/T-AIEE.1951.5060631Search in Google Scholar
Różański A. (2018), Multi-scale analysis of the thermal characteristics of a multiphase medium, (in Polish) Oficyna Wydawnicza Politechniki Wrocławskiej.RóżańskiA.2018Multi-scale analysis of the thermal characteristics of a multiphase medium(in Polish)Oficyna Wydawnicza Politechniki WrocławskiejSearch in Google Scholar
Tarnawski V.R., Wagner B. (1992), A new computerized approach to estimating the thermal properties of unfrozen soils, Canadian Geotechnical Journal, 29(4), 714–720.TarnawskiV.R.WagnerB.1992A new computerized approach to estimating the thermal properties of unfrozen soilsCanadian Geotechnical Journal29471472010.1139/t92-079Search in Google Scholar
Tarnawski V.R., Wagner B. (1993), Modeling the thermal conductivity of frozen soils, Cold Regions Science and Technology, 22(1), 19–31.TarnawskiV.R.WagnerB.1993Modeling the thermal conductivity of frozen soilsCold Regions Science and Technology221193110.1016/0165-232X(93)90043-8Search in Google Scholar
Tong F., Jing L., Zimmerman R.W. (2009), An effective thermal conductivity model of geological porous media for coupled thermo-hydro-mechanical systems with multiphase flow, International Journal of Rock Mechanics and Mining Sciences, 46(8), 1358–1369.TongF.JingL.ZimmermanR.W.2009An effective thermal conductivity model of geological porous media for coupled thermo-hydro-mechanical systems with multiphase flowInternational Journal of Rock Mechanics and Mining Sciences4681358136910.1016/j.ijrmms.2009.04.010Search in Google Scholar
Wiener O. (1912), Der Abhandlungen der Mathematisch-Physischen Klasse der Konigl, Sachsischen Gesellshaft der Wissenschaften, 32, 509–604.WienerO.1912Der Abhandlungen der Mathematisch-Physischen Klasse der KoniglSachsischen Gesellshaft der Wissenschaften32509604Search in Google Scholar
Zhang N., Wang Z. (2017), Review of soil thermal conductivity and predictive models, International Journal of Thermal Sciences, 117, 172–183.ZhangN.WangZ.2017Review of soil thermal conductivity and predictive modelsInternational Journal of Thermal Sciences11717218310.1016/j.ijthermalsci.2017.03.013Search in Google Scholar