Characterization of rock thermal conductivity by high-resolution optical scanning
Tóm tắt
Từ khóa
Tài liệu tham khảo
Beck, A.E., 1987. Methods for determining thermal conductivity and thermal diffusivity. In: Haenel, Rybach, Stegena, (Eds.), Handbook on Terrestrial Heat Flow Density Determination. Kluwer, Dordrecht, pp. 87–124.
Birch, F., 1950. Flow of heat in the Front Range. Colorado. Geological Society of America Bull. 61, 567–630.
Blackwell, D.D., Spafford, R.E., 1987. Experimental methods in continental heat flow. In: Sammisaud, Henyey, (Eds.), Methods of Exp. Phys., vol. 24. Academic Press, New York, chapter 14, pp. 189–226.
Bullard, E.C., 1939. Heat flow in South Africa. Proceedings of the Royal Society of London A 173, 474–502.
Burkhardt, H., Honarmand, H., Pribnow, D., 1990. First results of thermal conductivity measurements with a borehole tool for great depths. In: Bram, Draxler, Kessels, Zoth, (Eds.), KTB Report, vol. 90–6a. Springer Verlag, Hannover, pp. 245–258.
Carslaw, H., Jaeger, J.C., 1947. Conduction of Heat in Solids. Clarendon Press, Oxford.
Grubbe, K., Haenel, R., Zoth, G., 1983. Determination of the vertical component of thermal conductivity by line source methods. Zeitblatt für Geologie und Palaontologie, Teil I H (1/2), 49–56.
Herzen, R.P., Maxwell, A.E., 1959. The measurement of thermal conductivity of deep-sea sediments by a needle probe method. Journal of Geophysical Research 64, 1557–1563.
Huenges, E., Burkhardt, H., Erbas, K., 1990. Thermal conductivity profile of the KTB pilot corehole. Scientific Drilling 1, 224–230.
Jaeger, J.C., 1958. The measurement of thermal conductivity and diffusivity with cylindrical probes. EOS Trans. AGU 39, 708–710.
Jaeger, J.C., 1959. The use of complete temperature–time curves for determination of thermal conductivity with particular reference to rocks. Australian Journal of Phys. 12, 203–217.
Lachenbruch, A.H., 1957. A probe for measurements of thermal conductivity of frozen soils in place. Eos Transactions AGU 38, 691–697.
Lewis, T., Villinger, H., Davis, E., 1993. Thermal conductivity measurement of rock fragments using a pulsed needle probe. Canadian Journal of Earth Sciences 30, 480–485.
Popov, Y.A., 1983. Theoretical models of the method of determination of the thermal properties of rocks on the basis of movable sources. Geologiya i Razvedka (Geology and Prospecting) Part I, 9, 97–103 (in Russian).
Popov, Y.A., 1984a. Theoretical models of the method of determination of the thermal properties of rocks on the basis of movable sources. Geologiya i Razvedka (Geology and Prospecting) Part II, 2, 83–86 (in Russian).
Popov, Y.A., 1984b. Peculiarities of the method of detailed investigations of rock thermal properties. Geologiya i Razvedka (Geology and Prospecting) 4, 76–84 (in Russian).
Popov, Y.A., Semionov, V.G., Korosteliov, V.M., Berezin, V.V., 1983. Non-contact evaluation of thermal conductivity of rocks with the aid of a mobile heat source. Izvestiya, Physics of the Solid Earth 19, 563–567.
Popov, Y.A., Berezin, V.V., Semionov, V.G., Korosteliov, V.M., 1985a. Complex detailed investigations of the thermal properties of rocks on the basis of a moving point source. Izvestiya, Physics of the Solid Earth 1, 64–70.
Popov, Y.A., Berezin, V.V., Semionov, V.G., 1985b. Evaluating the thermal conductivity of anisotropic minerals and rocks. Izvestiya, Physics of the Solid Earth 7, 565–570.
Popov, Y.A., Berezin, V.V., Soloviov, G.A., Romuschkevitch, R.A., Korosteliov, V.M., Kostiurin, A.A., Kulikov, A.V., 1987. Thermal conductivity of minerals. Izvestiya, Physics of the Solid Earth 3, 245–253.
Popov, Y.A., Korosteliov, V.M., Berezin, V.V., Romuschkevitch, R.A., 1991. Thermal physical investigations of rocks and ores. Sovetskaya Geologiya (Soviet Geology) 6, 43–48 (in Russian).
Popov, Y.A., Mandel, A.M., 1998. Geothermic investigations of anisotropic strata. Izvestiya, Physics of the Solid Earth 11, 33–43.
Popov, Y.A., Mandel, A.M., Kostyurin, A.A., Bangura, A., 1990. New methodological opportunities for investigations of thermal conductivity of anisotropic rocks and minerals. Geologiya i Razvedka (Geology and Prospecting) 8, 85–90 (in Russian).
Popov, Y.A., Rabe, F., Bangura, A., 1993. Adequacy of theoretical and experimental models of the optical scanning method. Geologiya i Razvedka (Geology and Prospecting) 6, 65–72 (in Russian).
Pribnow, D., Sass, J.H., 1995. Determination of thermal conductivity from deep boreholes. Journal of Geophysical Research 100, 9981–9994.
Pribnow, D., Williams, C., Burkhardt, H., 1993. Log-derived estimate for thermal conductivity of crystalline rocks from the 4 km KTB Vorbohrung. Geophysical Research Letters 20, 1155–1158.
Pribnow, D., Williams, C., Sass, J.H., Keating, R., 1996. Thermal conductivity of water-saturated rocks from the KTB pilot hole at temperatures of 25 to 300°C. Geophysical Research Letters 23, 391–394.
Sass, J.H., Lachenbruch, A.H., Munroe, R., 1971a. Thermal conductivity of rocks from measurements on fragments and its application to heat flow determinations. Journal of Geophysical Research 76, 2291–3401.
Sass, J.H., Lachenbruch, A.H., Munroe, R.J., Green, G.W., Moses Jr., T.H., 1971b. Heat flow in the western United States. Journal of Geophysical Research 76, 6376–6413.
Schön, J.H., 1996. Physical Properties of Rocks: Fundamentals and Principles of Petrophysics. Trowbridge.
Vries, D.A., Peck, A.J., 1958. On the cylindrical probe method of measuring thermal conductivity with special reference to soils. Australian Journal of Phys. 11, 255–271.
Walsh, J., Decker, E., 1966. Effect of pressure and saturating fluid on the thermal conductivity of compact rock. Journal of Geophysical Research 71, 3053–3061.
Wilhelm, H., 1990. A new approach to the borehole temperature relaxation method. Geophysical Journal International 103, 469–481.
Williams, C.F., Anderson, R.N., 1990. Thermophysical properties of the Earths crust: in situ measurements from continental and ocean drilling. Journal of Geophysical Research 95, 9209–9236.
Williams, C.F., Sass, J.H., 1996. The thermal conductivity of rock under hydrothermal conditions: measurements and applications. Proc. 21st Workshop on Geothrm. Res. Engr., Stanford University, pp. 335–341.