Laboratory Investigation of Cryogenic Fracturing of HDR Wellbores Under Triaxial-Confining stresses

Hot dry rock (HDR) contains abundant thermal energy, which can be extracted through fracturing and used for electricity generation. Due to its deep depth, high temperature and high-pressure conditions, it is difficult to initiate fractures for conventional hydraulic fracturing technology. This paper...

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Bibliographic Details
Published in:Journal of physics. Conference series 2023-06, Vol.2520 (1), p.12016
Main Authors: Yang, Zheqi, Zhang, Baosheng, Bi, Jianfei
Format: Article
Language:English
Subjects:
Breakdown
Confining
Crack initiation
Cryoforming
Fracture mechanics
Granite
High temperature
Hydraulic fracturing
Laboratories
Liquid nitrogen
Nitrogen
Physics
Stresses
Thermal energy
Well drilling
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Summary:Hot dry rock (HDR) contains abundant thermal energy, which can be extracted through fracturing and used for electricity generation. Due to its deep depth, high temperature and high-pressure conditions, it is difficult to initiate fractures for conventional hydraulic fracturing technology. This paper studies the advantage of cryogenic fracturing on the HDR. We have carried out a series of laboratory experiments on granite samples with different lengths of the open hole under triaxial-confining stresses (10 MPa). The nitrogen fracturing wellbores of high temperature (100−300 °C) granites are processed by LN 2 (liquid nitrogen) and NoLN 2 (no liquid nitrogen) and retained with 20 mm and 30 mm open hole to form four control groups. The fracturing results showed that LN 2 cryogenic stimulation is more effective in reducing the HDR initiation pressure. With a 20 mm open hole, the breakdown pressure of samples with LN 2 decreases by 13.9%-18.7% compared with untreated samples. When the open hole changes from 20 mm to 30 mm, the breakdown pressure of samples with NoLN 2 is reduced by 6.7%-15%. The longer the open hole of the samples is, the more complex the fracture patterns after the nitrogen fracturing are. This can be attributed to the length of the open hole. The longer it is, the more complex the micro-fractures on the surface are, and the force of the direction parallel to the cross-section is significantly increased. The results of our research afford Enhanced Geothermal Systems (EGS) basics and help the early realization of thermal power generation from HDR.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/2520/1/012016