1. [地质云]干热岩
Deformation and instability failure of borehole at high temperature and high pressure in Hot Dry Rock exploitation,
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摘要
Abstract: Borehole stability at high temperature and high in-situ stresses is the key to Hot Dry Rock geothermal energy extraction. Upon drilling completion, borehole stability, its deformation and failure critical condition will be significant in deep HDR engineering design and construction. Using high temperature and high pressure servo-controlled triaxial rock testing machine, we performed experiments of borehole deformation and instability for three granite samples (200聽mm in diameter and 400聽mm long with a 40聽mm opening in the center) at different hydrostatic stresses and temperature. The elastic and creep deformation data was analyzed. The results indicate that: 1) when the hydrostatic pressure is lower than 100聽MPa and the temperature is below 400聽掳C, the specimens deform following the generalized Kelvin model. The critical condition for borehole stability is reached at hydrostatic pressure of 125聽MPa and temperature of 500聽掳C, when creep deformation accelerates sharply. The failure mode is shear failure or a combination of shear and tension failure. The critical radial deformation ratio is about 20%; 2) Creep deformation at steady creep phase is derived based on the test data. The ultimate condition for drilling in granite is analyzed in regards to temperature and in-situ stresses.