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Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 8/2019

04.01.2019 | Technical Note

Effect of High Temperatures on the Thermal Properties of Granite

verfasst von: Qiang Sun, Weiqiang Zhang, Yanming Zhu, Zhen Huang

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 8/2019

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Excerpt

In recent years, the exploitation of geothermal resources has included the utilization of deep underground space, underground coal gasification activities, and disposal of high-level radioactive nuclear waste in deep geological repositories. Therefore, studies on the changes in rock properties at high temperatures have become increasingly important and necessary to ensure the safety of workers and the human population as a whole. In-depth understanding of the thermal properties of rocks at different temperatures has important and practical implications for the design, construction and maintenance of exploitation activities. …
Vorheriger Artikel Shear Performance of Rock Joint Reinforced by Fully Encapsulated Rock Bolt Under Cyclic Loading Condition
Nächster Artikel Transient Closure of a Cylindrical Hole in a Salt Formation Considered as a Norton–Hoff Medium

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Literatur
Abdulagatov IM, Abdulagatova ZZ, Kallaev SN, Bakmaev AG, Ranjith PG (2015) Thermal-diffusivity and heat-capacity measurements of sandstone at high temperatures using laser flash and DSC methods. Int J Thermophys 36:658–691CrossRef
Aurangzeb, Mehmood S, Maqsood A (2008) Modeling of effective thermal conductivity of dunite rocks as a function of temperature. Int J Thermophys 29:1470–1479CrossRef
Bauer S, Urquhart A (2016) Thermal and physical properties of reconsolidated crushed rock salt as a function of porosity and temperature. Acta Geotech 11:913–924CrossRef
Braun J, Stippich C, Glasmacher UA (2016) The effect of variability in rock thermal conductivity on exhumation rate estimates from thermochronological data. Tectonophysics 690:288–297CrossRef
Garitte B, Gens A, Vaunat J, Armand G (2014) Thermal conductivity of argillaceous rocks: determination methodology using in situ heating tests. Rock Mech Rock Eng 47:111–129CrossRef
Gautam PK, Verma AK, Jha MK, Sarkar K, Singh TN, Bajpai RK (2016a) Study of strain rate and thermal damage of Dholpur sandstone at elevated temperature. Rock Mech Rock Eng 49(9):1–11CrossRef
Gautam PK, Verma AK, Maheshwar S, Singh TN (2016b) Thermomechanical analysis of different types of sandstone at elevated temperature. Rock Mech Rock Eng 49(5):1985–1993CrossRef
Gunn DA, Jones LD, Raines MG, Entwisle DC, Hobbs PR (2005) Laboratory measurement and correction of thermal properties for application to the rock mass. Geotech Geol Eng 23:773–791CrossRef
Guo PY, Zhang N, He MC, Bai BH (2017) Effect of water saturation and temperature in the range of 193 to 373 K on the thermal conductivity of sandstone. Tectonophysics 699:121–128CrossRef
Jessop AM (2013) Thermal conductivity of short sequences of rock. Int J Earth Sci (Geol Rundsch) 102:483–491CrossRef
Jha MK, Verma AK, Maheshwar S, Chauhan A (2016) Study of temperature effect on thermal conductivity of Jhiri shale from Upper Vindhyan, India. Bull Eng Geol Environ 75:1657–1668CrossRef
Liebel HT, Stolen MS, Frengstad BS, Ramstad RK, Brattli B (2012) Insights into the reliability of different thermal conductivity measurement techniques: a thermo-geological study in Mære (Norway). Bull Eng Geol Environ 71:235–243CrossRef
Maqsood A, Kamran K (2005) Thermophysical properties of porous sandstones: measurements and comparative study of some representative thermal conductivity models. Int J Thermophys 26(5):1617–1631CrossRef
Miao SQ, Li HP, Chen G (2014) Temperature dependence of thermal diffusivity, specific heat capacity, and thermal conductivity for several types of rocks. J Therm Anal Calorim 115:1057–1063CrossRef
Mottaghy D, Vosteen HD, Schellschmidt R (2008) Temperature dependence of the relationship of thermal diffusivity versus thermal conductivity for crystalline rocks. Int J Earth Sci 97:435–442CrossRef
Popov Y, Tertychnyi V, Romushkevich R, Korobkov D, Pohl J (2003) Interrelations between thermal conductivity and other physical properties of rocks: experimental data. Pure Appl Geophys 160:1137–1161CrossRef
Popov Y, Beardsmore G, Clauser C, Roy S (2016) ISRM suggested methods for determining thermal properties of rocks from laboratory tests at atmospheric pressure. Rock Mech Rock Eng 49:4179–4207CrossRef
Rosenbranda E, Kjøller C, Riis JF, Ketsc F, Fabricius IL (2015) Different effects of temperature and salinity on permeability reduction by fines migration in Berea sandstone. Geothermics 53:225–235CrossRef
Sun Q, Lv C, Cao LW, Li WC, Geng JS, Zhang WQ (2016) Thermal properties of sandstone after treatment at high temperature. Int J Rock Mech Min Sci 85:60–66CrossRef
Sun Q, Chen SE, Gao Q, Zhang WQ, Geng JS, Zhang YL (2017) Analyses of the factors influencing sandstone thermal conductivity. Acta Geodyn Geomater 14(2):173–180CrossRef
Sundberg J, Back PE, Christiansson R, HÖkmark M, Ländell M, Wrafter J (2009) Modeling of thermal rock mass properties at the potential sites of a Swedish nuclear waste repository. Int J Rock Mech Min Sci 46:1042–1054CrossRef
Vosteen HD, Schellschmidt R (2003) Influence of temperature on thermal conductivity, thermal capacity and thermal diffusivity for different types of rock. Phys Chem Earth 28:499–509CrossRef
Wen H, Lu JH, Xiao Y, Deng J (2015) Temperature dependence of thermal conductivity, diffusion and specific heat capacity for coal and rocks from coalfield. Thermochim Acta 619:41–47CrossRef
Yang SQ, Ranjith PG, Jing HW, Tian WL, Ju Y (2017) An experimental investigation on thermal damage and failure mechanical behavior of granite after exposure to different high temperature treatments. Geothermics 65:180–197CrossRef
Yasar E, Erdogan Y, Guneyli H (2008) Determination of the thermal conductivity from physico-mechanical properties. Bull Eng Geol Environ 67:219–225CrossRef
Zhang WQ, Qian HT, Sun Q, Chen YH (2015) Experimental study of the effect of high temperature on primary wave velocity and microstructure of limestone. Environ Earth Sci 74:5739–5748CrossRef
Zhao XG, Wang J, Chen F, Li PF, Ma LK, Xie JL, Liu YM (2016) Experimental investigations on the thermal conductivity characteristics of Beishan granitic rocks for China’s HLW disposal. Tectonophysics 683:124–137CrossRef
Metadaten
Titel
Effect of High Temperatures on the Thermal Properties of Granite
verfasst von
Qiang Sun
Weiqiang Zhang
Yanming Zhu
Zhen Huang
Publikationsdatum
04.01.2019
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 8/2019
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-019-1733-0

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