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Volume 4 Issue 4
Dec.  2016
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FENG Guan-hong, XU Tian-fu, ZHU Hui-xing. 2016: Dynamics of fluid and heat flow in a CO2-based injection-production geothermal system. Journal of Groundwater Science and Engineering, 4(4): 377-388.
Citation: FENG Guan-hong, XU Tian-fu, ZHU Hui-xing. 2016: Dynamics of fluid and heat flow in a CO2-based injection-production geothermal system. Journal of Groundwater Science and Engineering, 4(4): 377-388.

Dynamics of fluid and heat flow in a CO2-based injection-production geothermal system

  • Publish Date: 2016-12-28
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  • Ramey Jr H J. 1962. Wellbore heat transmission. Journal of Petroleum Technology, 14(04): 427-435 .
    Pruess K. 2006. Enhanced geothermal systems (EGS) using CO2 as working fluid–A novel approach for generating renewable energy with simultaneous sequestration of carbon. Geothermics, 35(4): 351-367 .
    Nelson P H. 1994. Permeability-porosity relationships in sedimentary rocks. The Log Analyst, 35(3): 38-62 .
    XU T, FENG G, et al. 2015. Wellbore–reservoir coupled simulation to study thermal and fluid processes in a CO2-based geothermal system: Identifying favorable and unfavorable condi-tions in comparison with water. Environmental Earth Sciences, 73(11): 6797-6813 .
    Curran P J. 1988. The semivariogram in remote sensing: an introduction. Remote Sensing of Environment, 24(3): 493-507 .
    Pan L, Oldenburg C M, et al. 2011a. Transient CO2 leakage and injection in wellbore-reservoir systems for geologic carbon sequestration. Greenhouse Gases: Science and Technology, 1(4): 335-350 .
    Timur, A. 1968. An investigation of permeability, porosity, and residual water saturation relationships, SPWLA 9th annual logging symposium. New Orleans: Society of Petro-physicists and Well-Log Analysts .
    Pan L, Oldenburg, C M, et al. 2011b. T2Well/ECO2N version 1.0: Multiphase and non-isothermal model for coupled wellbore-reservoir flow of carbon dioxide and variable salinity water, LBNL-4291E. Berkeley: Lawrence Berkeley National Laboratory .
    Archie G E. 1952. Classification of carbonate reservoir rocks and petrophysical considerations. AAPG Bulletin, 36(2): 278-298 .
    Zimmerman D L, Zimmerman M B. 1991. A comparison of spatial semivariogram estimators and corresponding ordinary kriging predictors. Technometrics, 33(1): 77-91 .
    Srivastava A, Babu G L S, Haldar S. 2010. Influence of spatial variability of permeability property on steady state seepage flow and slope stability analysis. Engineering Geology, 110(3): 93-101 .
    Davis S N. 1969. Porosity and permeability of natural materials. New York: Flow through Porous Media, 53-89 .
    Archie G E. 1950. Introduction to petrophysics of reservoir rocks. AAPG Bulletin, 34(5): 943-961 .
    Pan L, Oldenburg C M. 2014. T2Well-an integrated wellbore-reservoir simulator. Computers & Geosciences, 65: 46-55 .
    Pruess K. 2008. On production behavior of enhanced geothermal systems with CO2 as working fluid. Energy Conversion and Management, 49(6): 1446-1454 .
    Pan L, Freifeld B, et al. 2015. Fully coupled wellbore-reservoir modeling of geo-thermal heat extraction using CO2 as the working fluid. Geothermics, 53: 100-113 .
    Atrens A D, Gurgenci H, Rudolph V. 2010. Electricity generation using a carbon-dioxide thermosiphon. Geothermics, 39(2): 161-169 .
    Pruess K, Oldenburg C, Moridis G. 1999. TOUGH2 user’s guide, version 2.0 report LBNL-43134. Berkeley: Lawrence Berkeley National Laboratory, Earth Sciences Division .
    TIAN H, PAN F, et al. 2014. Impacts of hydrological heterogeneities on caprock mineral alteration and containment of CO2 in geological storage sites. International Journal of Greenhouse Gas Control, (24): 30-42 .
    Carman P C. 1956. Flow of gases through porous media. Cambridge: Academic Press .
    Tester J W, Anderson B, et al. 2006. The future of geothermal energy: Impact of enhanced geothermal systems (EGS) on the United States in the 21st century. Massachusetts: Massachusetts Institute of Technology, 209 .
    Ehrenberg S N, Nadeau P H. 2005. Sandstone vs. carbonate petroleum reservoirs: A global perspective on porosity-depth and porosity- permeability relationships. AAPG Bulletin, 89(4): 435-445 .
    Brown D W. 2000. A hot dry rock geothermal energy concept utilizing supercritical CO2 instead of water. In: Proceedings of the twenty-fifth workshop on geothermal reservoir engineering. Palo Alto: Stanford University, 233-238 .
    Randolph J B, Saar M O. 2011. Coupling carbon dioxide sequestration with geothermal energy capture in naturally permeable, porous geologic formations: Implications for CO2 sequestration. Energy Procedia, (4): 2206-2213 .
    Bear J. 1972. Dynamics of fluids in porous media. New York: Dover Publications .
    Katz A J, Thompson A H. 1986. Quantitative prediction of permeability in porous rock. Physical Review B, 34(11): 8179 .
    Haldar S, Babu G L S. 2008. Effect of soil spatial variability on the response of laterally loaded pile in undrained clay. Computers and Geotechnics, 35(4): 537-547 .
    Baecher G B, Christian J T. 2005. Reliability and statistics in geotechnical engineering. Chichester: John Wiley & Sons .
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