Permeability enhancement by microfracturing in granite under supercritical water conditions

Toru Takahashi, Koji Tanifuji, Catherine Stafford, Toshiyuki Hashida

Research output: Contribution to journalArticlepeer-review

5 Citations (Scopus)


This paper discusses the generation of micro-fractures in a granite under super critical water environment. In order to create an artificial pathway of water in geothermal reservoir with limited permeability, hydraulic stimulation technology is commonly employed. In this study, simulated hydraulic stimulation tests were performed using thick-walled cylindrical specimens of 45 mm outer diameter, under temperatures up to 600°C and confining pressures up to 100 MPa. The experimental results of simulated hydraulic stimulations showed that no macroscopic fracturing took place and predominant fluid flow occurred at high temperature regime. The permeability of the granite was also measured using the same cylindrical specimen configuration as used in the simulated hydraulic stimulation tests. The permeability test results showed that the permeability of the granite was enhanced drastically when the temperature exceeded the critical point of water, whilst no significant increase in the permeability was observed under the subcritical water condition. Optical microscopy of the micro-structural change revealed that the enhanced permeability was due to the formation of micro-fractures under the supercritical water environment. This laboratory-scale test result suggests that it may be possible to generate a micro-fracture network by injecting water into a high temperature rock mass whose conditions exceed the critical point of water and to extract the heat energy through the generated fracture network from the supercritical rock mass.

Original languageEnglish
Pages (from-to)24-29
Number of pages6
JournalJSME International Journal, Series A: Solid Mechanics and Material Engineering
Issue number1
Publication statusPublished - 2003 Jan


  • Microcrack density
  • Permeability
  • Rock
  • Supercritical reservoir
  • Supercritical water

ASJC Scopus subject areas

  • Materials Science(all)
  • Mechanical Engineering


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