An Overview of the Measurement and Evaluation Methods of In-situ Stress and Its Frontier Challenges in Hot Dry Rock
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摘要: 可靠的地应力数据能够指导开发干热岩资源。本文针对干热岩深部储层地应力调查存在的困难, 按照基于钻孔、岩芯和地质的三类调查手段, 首先总结提出了适用于干热岩地应力测量与评价的方法, 并指出了其基本原理、测试仪器、应用场景与存在的优缺点。然后, 以我国青海共和干热岩试采工程为例, 提出了干热岩地应力测量与评价模式, 给出了储层地应力特征的主要认识, 并验证其与工程开发结果的一致性。最后, 总结了干热岩地应力测量方法的认识, 指出了干热岩开发中与地应力相关的两大前沿科学问题, 即储层裂缝控制与诱发地震, 并对其发展趋势与挑战进行了展望。Abstract: Reliable in-situ stress data can guide the development of hot dry rock (HDR) resources. In view of the difficulties involved in investigation of in-situ stress in deep reservoirs of HDR, this study summarizes and puts forward three types of investigation methods suitable for in-situ stress measurement and evaluation in HDR, based on borehole, core, and geology, and points out their basic principles, test instruments, application scenarios and advantages and disadvantages. Additionally, the HDR in-situ stress measurement and evaluation model is proposed taking the Gonghe HDR project in Qinghai, China, as an example. The main conclusions of the in-situ stress feature are shown, and its consistency with the result of hydraulic fracturing is verified. Subsequently, two frontier scientific issues related to in-situ stress in HDR development, namely reservoir fracture control and induced earthquake, are pointed out. Finally, the understanding of the in-situ stress measurement method of HDR is summarized, and its development trend and challenges are also assessed.
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陈浩, 王秀明, 赵立新. 2009. 交叉偶极子声测井多频率反演地层三阶弹性常数和地应力研究[J]. 地球物理学报, 52(6):1663-1674.
陈念, 王成虎, 陈平志, 陈建林, 周昊. 2021. 利用钻孔崩落数据再认识白鹤滩右岸地应力场特征[J]. 地质力学学报, 27(3): 430-440.
陈鹏, 施炜. 2015. 古构造应力场反演的理论与实践--基于断层滑动矢量分析[J]. 地质论评, 61(3): 536-546.
甘浩男, 王贵玲, 蔺文静, 张薇, 秦向辉, 张重远. 2020. 增强型地热系统环境地质影响现状研究与对策建议[J]. 地质力学学报, 26(2): 211-220.
雷兴林, 苏金蓉, 王志伟. 2020. 四川盆地南部持续增长的地震活动及其与工业注水活动的关联[J]. 中国科学: 地球科学, 50(11): 1505-1532.
雷治红. 2020. 青海共和盆地干热岩储层特征及压裂试验模型研究[D]. 长春: 吉林大学.
李亭昕, 蔺文静, 甘浩男, 岳高凡, 张德龙, 王贵玲. 2020.东南沿海干热岩资源成因模式探讨及勘查进展[J]. 地质力学学报, 26(2): 187-200.
李彦恒, 谭可可, 冯利. 2012. 基于岩饼几何形态测量的原地应力测定方法[J]. 岩土力学, 33(S2): 224-228.
蔺文静, 刘志明, 王婉丽, 王贵玲. 2013. 中国地热资源及其潜力评估[J]. 中国地质, 40(1): 312-321.
陆川, 王贵玲. 2015. 干热岩研究现状与展望[J]. 科技导报, 33(19): 13-21.
孟文, 郭祥云, 李永华, 韩立波, 张重远. 2022. 青藏高原东北缘构造应力场及动力学特征[J]. 地球物理学报, 65(9):3229-3251.
沈骋, 赵金洲, 谢军, 范宇, 宋毅. 2020. 海相页岩缝网可压性靶窗空间分布预测--以川南长宁区块为例[J]. 地质力学学报, 26(6): 881-891.
唐显春, 王贵玲, 马岩, 张代磊, 刘忠, 赵旭, 程天君. 2020. 青海共和盆地地热资源热源机制与聚热模式[J]. 地质学报, 94(7): 2052-2065.
唐显春, 王贵玲, 张代磊, 马岩. 2023. 青藏高原东北缘活动构造与共和盆地高温热异常形成机制[J]. 地球学报, 44(1):7-20.
王成虎. 2014. 地应力主要测试和估算方法回顾与展望[J]. 地质论评, 60(5): 971-996.
王贵玲, 刘彦广, 朱喜, 张薇. 2020. 中国地热资源现状及发展趋势[J]. 地学前缘, 27(1): 1-9.
王生奥, 韩复兴, 孙章庆, 邴琦, 王丽丽, 许宝寅. 2021. 地应力测量及其对油气运移和断层封堵性影响的发展现状与趋势[J]. 地球物理学进展, 36(2): 675-688.
魏周拓, 范宜仁, 陈雪莲. 2012. 横波各向异性在裂缝和应力分析中的应用[J]. 地球物理学进展, 27(1): 217-224.
许天福, 胡子旭, 李胜涛, 姜振蛟, 侯兆云, 李凤昱, 梁旭, 冯波. 2018. 增强型地热系统: 国际研究进展与我国研究现状[J]. 地质学报, 92(9): 1936-1947.
许天福, 张延军, 曾昭发, 鲍新华. 2012. 增强型地热系统(干热岩)开发技术进展[J]. 科技导报, 30(32): 42-45.
杨跃辉, 孙东生, 郑秀华, 林为人, 李阿伟. 2019. 岩芯直径变形分析法及其在松科 2井深部地应力调查中的应用[J]. 中南大学学报(自然科学版), 50(12): 3106-3113.
印兴耀, 马妮, 马正乾, 宗兆云. 2018. 地应力预测技术的研究现状与进展[J]. 石油物探, 57(4): 488-504.
张盛生, 张磊, 田成成, 蔡敬寿, 唐保春. 2019. 青海共和盆地干热岩赋存地质特征及开发潜力[J]. 地质力学学报, 25(4):501-508.
张重远, 吴满路, 陈群策, 廖椿庭, 丰成君. 2012. 地应力测量方法综述[J]. 河南理工大学学报(自然科学版), 31(3):305-310.
张丰收, 李猛利, 张重远, 何满潮, 张盛生, 衡德. 2022. 高地应力下深部岩芯饼化裂缝发展规律及机制研究[J]. 岩石力学与工程学报, 41(3): 533-542.
赵建涛, 崔效锋, 谢富仁. 2002. 唐山地震震源区构造应力场强度的初步分析[J]. 地震学报, 24(3): 268-276.
赵金洲, 任岚, 胡永全. 2013. 页岩储层压裂缝成网延伸的受控因素分析[J]. 西南石油大学学报(自然科学版), 35(1): 1-9.
周舟, 金衍, 曾义金, 张旭东, 周健, 汪文智, 孟翰. 2019. 青海共和盆地干热岩地热储层水力压裂物理模拟和裂缝起裂与扩展形态研究[J]. 吉林大学学报(地球科学版), 49(5):1425-1430.
AMADEI B, STEPHANSSON O.1997. Rock stress and its measurement[M]. London: Chapman and Hall.
BARIA R, BAUMGÄRTNER J, RUMMEL F, PINE R J, SATO Y.1999. HDR/HWR reservoirs: concepts, understanding and creation[J]. Geothermics, 28(4-5): 533-552.
BARTON C A, ZOBACK M D, MOOS D. 1995. Fluid flow along potentially active faults in crystalline rock[J]. Geology, 23(8):683-686.
BELL J S, GOUGH D I. 1979. Northeast-southwest compressive stress in Alberta evidence from oil wells[J]. Earth Planetary Science Letters, 45(2): 475-482.
BROWN D W, DUCHANE D V, HEIKEN G, HRISCU V T.2012.Mining the earth's heat: Hot dry rock geothermal energy[M].Berlin Heidelberg: Springer-Verlag.
BRUDY M, ZOBACK M D, FUCHS K, RUMMEL F, BAUMGÄRTNER J. 1997. Estimation of the complete stress tensor to 8 km depth in the KTB scientific drill holes: Implications for crustal strength[J]. Journal of Geophysical Research: Solid Earth, 102(B8): 18453-18475.
CHANG Chan-dong, JO Y. 2015. Heterogeneous in situ stress magnitudes due to the presence of weak natural discontinuities in granitic rocks[J]. Tectonophysics, 664: 83-97.
CHEN Hao, WANG Xiu-ming, ZHAO Li-xin. 2009. Study of inversion for third order elastic constants and in situ stress by multifrequency dispersion of cross dipole sonic logging[J].Chinese Journal of Geophysics, 52(6): 1663-1674(in Chinese with English abstract).
CHEN Nian, WANG Cheng-hu, CHEN Ping-zhi, CHEN Jian-lin, ZHOU Hao. 2021. Re-analyzing the in-situ stress field in the right bank of the Baihetan hydroelectric power plant using the borehole breakout data[J]. Journal of Geomechanics, 27(3):430-440(in Chinese with English abstract).
CHEN Peng, SHI Wei. 2015. Theory and practice of paleostress field inversion: Inferred from fault slip vector analysis[J].Geological Review, 61(3): 536-546(in Chinese with English abstract).
ELLSWORTH W L. 2013. Injection-induced earthquakes[J]. Science, 341(6142): 1225942.
FANG Y, ELSWORTH D, WANG C, ISHIBASHI T, FITTS J P.2017. Frictional stability-permeability relationships for fractures in shales[J]. Journal of Geophysical Research: Solid Earth, 122: 1760-1776.
FUNATO A, ITO T. 2017. A new method of diametrical core deformation analysis for in-situ stress measurements[J]. International Journal of Rock Mechanics and Mining Sciences, 91: 112-118.
GAN Hao-nan, WANG Gui-ling, LIN Wen-jing, ZHANG Wei, QIN Xiang-hui, ZHANG Chong-yuan. 2020. Research on the status quo of environmental geology impact of enhanced geothermal system and countermeasures[J]. Journal of Geomechanics, 26(2): 211-220(in Chinese with English abstract).
GIARDINI D. 2009. Geothermal quake risks must be faced[J].Nature, 462(7275): 848-849.
GRIGOLI F, CESCA S, RINALDI A P, MANCONI A, LÓPEZ-COMINO J A, CLINTON J F, WESTAWAY R, CAUZZI C, DAHM T, WIEMER S. 2018. The November 2017 Mw 5.5 Pohang earthquake: A possible case of induced seismicity in South Korea[J]. Science, 360(6392): 1003-1006.
HAIMSON B C. 2010. The effect of lithology, inhomogeneity, topography, and faults, on in situ stress measurements By by hydraulic fracturing, and the importance of correct data interpretation and independent evidence in support of results[C]//Proceedings of the 5th International Symposium on In-Situ Rock Stress “Rock strss and earthquake”. Leiden, The Netherlands: CRC Press Balkema: 11-14.
HAIMSON B C, CORNET F H. 2003. ISRM suggested methods for rock stress estimation-Part 3: hydraulic fracturing (HF)and/or hydraulic testing of pre-existing fractures (HTPF)[J].International Journal of Rock Mechanics and Mining Sciences, 40(7-8): 1011-1020.
HÄRING M O, SCHANZ U, LADNER F, DYER B C. 2008.Characterisation of the Basel 1 enhanced geothermal system[J]. Geothermics, 37(5): 469-495.
HUBBERT K M, D G WILLIS. 1957. Mechanics of hydraulic fracturing[J]. Transactions of the AIME, 210(1): 153-168.
JAEGER J C, COOK N G W. 1963. Pinching off and disking of rocks[J]. Journal of Geophysical Research, 68(6): 1759-1765.
JO Y, CHANG Chan-dong, JI S H, PARK K W. 2019. In situ stress states at KURT, an underground research laboratory in South Korea for the study of high-level radioactive waste disposal[J].Engineering Geology, 259: 105198.
KERANEN K M, WEINGARTEN M. 2018. Induced seismicity[J].Annual Review of Earth Planetary Sciences, 46(1): 149-174.
KIM K H, REE J H, KIM Y H, KIM S, KANG S Y, SEO W. 2018.Assessing whether the 2017 Mw5.4 Pohang earthquake in South Korea was an induced event[J]. Science, 360(6392):1007-1009.
LEE K K, ELLSWORTH W L, GIARDINI D, TOWNEND J, GE She-min, SHIMAMOTO T, YEO I W, KANG T S, RHIE J, SHEEN D H, CHANG Chan-dong, WOO J U, LANGENBRUCH C. 2019. Managing injection-induced seismic risks[J]. Science, 364(6442): 730-732.
LEI Xing-lin, SU Jin-rong, WANG Zhi-wei. 2020. Growing seismicity in the Sichuan Basin and its association with industrial activities[J]. Science China Earth Sciences, 50(11):1505-1532(in Chinese with English abstract).
LEI Zhi-hong. 2020. Study on the characteristics of hot dry rock reservoir and fracturing test model in the Gonghe Basin, Qinghai Province[D]. Changchun: Jilin University(in Chinese with English abstract).
LI Ting-xin, LIN Wen-jing, GAN Hao-nan, YUE Gao-fan, ZHANG De-long, WANG Gui-ling. 2020. Research on the genetic model and exploration progress of hot dry rock resources on the southeast coast of China[J]. Journal of Geomechanics, 26(2): 187-200(in Chinese with English abstract).
LI Yan-heng, TAN Ke-ke, FENG Li. 2012. Estimation of in situ geostress states from measuring shape of disked core[J]. Rock and Soil Mechanics, 33(S2): 224-228(in Chinese with English abstract).
LIM S S, MARTIN C D. 2010. Core disking and its relationship with stress magnitude for Lac du Bonnet granite[J]. International Journal of Rock Mechanics and Mining Sciences, 47(2):254-264.
LIN Wei-ren, KWAŚNIEWSKI M, IMAMURA T, MATSUKI K.2006. Determination of three-dimensional in situ stresses from anelastic strain recovery measurement of cores at great depth[J]. Tectonophysics, 426(1-2): 221-238.
LIN Wen-jing, LIU Zhi-ming, WANG Wan-li, WANG Gui-ling.2013. The assessment of geothermal resources potential of China[J]. Geology in China, 40(1): 312-321(in Chinese with English abstract).
LU Chuan, WANG Gui-ling. 2015. Current status and prospect of hot dry rock research[J]. Science & Technology Review, 33(19): 13-21(in Chinese with English abstract).
MAO Rui-biao, FENG Zi-jun, LIU Zheng-he, ZHAO Yang-sheng.2017. Laboratory hydraulic fracturing test on large-scale pre-cracked granite specimens[J]. Journal of Natural Gas Science and Engineering, 44: 278-286.
MATSUKI K. 1991. Three-dimensional in-situ stress measurement with anelastic strain recovery of a rock core[C]//Proceeding of the 7th ISRM International Congress on rock mechanics.Rotterdam: A A Balkema.
MENG Wen, GUO Xiang-yun, LI Yong-hua, HAN Li-bo, ZHANG Chong-yuan. 2022. Tectonic stress field and dynamic characteristics in the northeastern margin of the Tibetan Plateau[J].Chinese Journal of Geophysics, 65(9): 3229-3251(in Chinese with English abstract).
MOORE J N, SIMMONS S F. 2013. More power from below[J].Science, 340(6135): 933-934.
OLASOLO P, JUÁREZ M C, MORALES M P, D'AMICO S, LIARTE I A. 2016. Enhanced geothermal systems (EGS): A review[J]. Renewable and Sustainable Energy Reviews, 56:133-144.
PLENEFISCH T, BONJER K P. 1997. The stress field in the Rhine Graben area inferred from earthquake focal mechanisms and eatimation of frictional parameters[J]. Tectonophysics, 275:71-97.
SCHOENBALL M, DAVATZES N C. 2017. Quantifying the heterogeneity of the tectonic stress field using borehole data[J].Journal of Geophysical Research: Solid Earth, 122(8):6737-6756.
SHEN Cheng, ZHAO Jin-zhou, XIE Jun, FAN Yu, SONG Yi. 2020.Target window spatial distribution prediction based on network fracability: A case study of shale gas reservoirs in the Changning Block, southern Sichuan Basin[J]. Journal of Geomechanics, 26(6): 881-891(in Chinese with English abstract).
SHENG Shu-zhong, WAN Yong-ge, JIANG Chang-sheng, WANG Xiao-shan, LIANG Shan-shan, XIAO Gen-ru, HU Xiao-hui.2021. Study on the crustal stress field of the Tengchong volcanic area using composite focal mechanism method[J]. Applied Geophysics, 18(2): 239-252.
SINHA B K, KOSTEK S. 1996. Stress-induced azimuthal anisotropy in borehole flexural waves[J]. Geophysics, 61(6):1899-1907.
TALUKDAR M, SONE H, KUO Li-wei. 2022. Lithology and fault-related stress variations along the TCDP boreholes: The stress state before and after the 1999 Chi- C hi Eart hquake[J].Journal of Geophysical Research: Solid Earth, 127(2):e2021JB023290.
TANG Xian-chun, WANG Gui-ling, MA Yan, ZHANG Dai-lei, LIU Zhong, ZHAO Xu, CHENG Tian-jun. 2020. Geological model of heat source and accumulation for geothermal anomalies in the Gonghe basin, northeastern Tibetan Plateau[J]. Acta Geologica Sinica, 94(7): 2052-2065(in Chinese with English abstract).
TANG Xian-chun, WANG Gui-ling, ZHANG Dai-lei, MA Yan.2023. Coupling Mechanism of Geothermal Accumulation and the Cenozoic Active Tectonics Evolution in Gonghe Basin, Northeastern Margin of the Tibetan Plateau[J]. Acta Geoscientica Sinica, 44(1): 7-20(in Chinese with English abstract).
TEUFEL L W. 1983. Determination of in-situ stress from anelastic strain recovery measurements of oriented core[C]//SPE/DOE Low Permeability Gas Reservoirs Symposium. OnePetro.
TEUFEL L W. 1993. Determination of in situ stress from paretial anelastic strain recovery measurements of oriented cores from deep boreholes[C]//US Symposium on Rock Mechanics: 34.
VILARRASA V, DE SIMONE S, CARRERA J, VILLASEÑOR A.2022. Multiple induced seismicity mechanisms at Castor underground gas storage illustrate the need for thorough monitoring[J]. Nature Communications, 13(1): 3447.
WANG Cheng-hu. 2014. Brief review and outlook of main estimate and measurement methods for in-situ stresses in rock mass[J]. Geological Review, 60(5): 971-996(in Chinese with English abstract).
WANG Gui-ling, LIU Yan-guang, ZHU Xi, ZHANG Wei. 2020.The status and development trend of geothermal resources in China[J]. Earth Science Frontiers, 27(1): 1-9(in Chinese with English abstract).
WANG Sheng-ao, HAN Fu-xing, SUN Zhang-qing, BING Qi, WANG Li-li, XU Bao-yin. 2021. Present situation and the development trend of in-situ stress measurement and its effect on hydrocarbon migration and fault block[J]. Progress in Geophysics, 36(2): 675-688(in Chinese with English abstract).
WEI Zhou-tuo, FAN Yi-ren, CHEN Xue-lian. 2012. Application of shear wave anisotropy in fractures and in-situ stress analysis[J]. Progress in Geophysics, 27(1): 217-224(in Chinese with English abstract).
XU Tian-fu, HU Zi-xu, LI Sheng-tao, JIANG Zhen-jiao, HOU Zhao-yun, LI Feng-yu, LIANG Xu, FENG Bo. 2018. Enhanced geothermal system: International progresses and research status of China[J]. Acta Geologica Sinica, 92(9):1936-1947(in Chinese with English abstract).
XU Tian-fu, ZHANG Yan-jun, ZENG Zhao-fa, BAO Xin-hua.2012. Technology progress in an enhanced geothermal system(hot dry rock)[J]. Science & Technology Review, 30(32):42-45(in Chinese with English abstract).
YANG Yue-hui, SUN Dong-sheng, ZHENG Xiu-hua, LIN Wei-ren, LI A-wei. 2019. A method of diametrical core deformation analysis and its application on stress investigation in SK2 Well[J]. Journal of Central South University(Science and Technology), 50(12): 3106-3113(in Chinese with English abstract).
YIN Xing-yao, MA Ni, MA Zheng-qian, ZONG Zhao-yun. 2018.Review of in-situ stress prediction technology[J]. Geophysical Prospecting for Petroleum, 57(4): 488-504(in Chinese with English abstract).
ZHANG Chong-yuan, CHEN Qun-ce, QIN Xiang-hui, HONG Bo, MENG Wen, ZHANG Quan-feng. 2017. In-situ stress and fracture characterization of a candidate repository for spent nuclear fuel in Gansu, northwestern China[J]. Engineering Geology, 231: 218-229.
ZHANG Chong-yuan, LIN Wei-ren, HE Man-chao, TAO Zhi-gang, MENG Wen. 2022. Determining in-situ stress state by anelastic strain recovery method beneath Xiamen: Implications for the coastal region of southeastern China[J]. Rock Mechanics and Rock Engineering, 55: 5687-5703.
ZHANG Chong-yuan, WU Man-lu, CHEN Qun-ce, LIAO Chun-ting, FENG Cheng-jun. 2012. Review of in-situ stress measurement methods[J]. Journal of Henan Polytechnic Univercity(Natural Science), 31(3): 305-310(in Chinese with English abstract).
ZHANG Feng-shou, LI Meng-li, ZHANG Chong-yuan, HE Man-chao, ZHANG Sheng-sheng, HENG De. 2022. Study on fracture propagation and formation mechanism of core discing at depth under high in-situ stresses[J]. Chinese Journal of Rock Mechanics and Engineering, 41(3): 533-542(in Chinese with English abstract).
ZHANG Sheng-sheng, ZHANG Lei, TIAN Cheng-cheng, CAI Jing-shou, TANG Bao-chun. 2019. Occurrence geological characteristics and development potential of hot dry rocks in Qinghai Gonghe Basin[J]. Journal of Geomechanics, 25(4):501-508(in Chinese with English abstract).
ZHANG Er-yong, WEN Dong-guang, WANG Gui-ling, YAN Wei-de, WANG Wen-shi, YE Cheng-ming, LI Xu-feng, WANG Huang, TANG Xian-chun, WENG Wei, LI Kuan, ZHANG Chong-yuan, LIANG Ming-xing, LUO Hong-bao, HU Han-yue, ZHANG Wei, ZHANG Sen-qi, JIN Xian-peng, WU Hai-dong, ZHANG Lin-you, FENG Qing-da, XIE Jing-yu, WANG Dan, HE Yun-chao, WANG Yue-wei, CHEN Zu-bin, CHENG Zheng-pu, LUO Wei-feng, YANG Yi, ZHANG Hao, ZHA En-lai, GONG Yu-lie, ZHENG Yu, JIANG Chang-she, ZHANG Sheng-sheng, NIU Xue, ZHANG Hui, HU Li-sha, ZHU Gui-lin, XU Wen-hao, NIU Zhao-xuan, YANG Li. 2022.The first power generation test of hot dry rock resources exploration and production demonstration project in the Gonghe Basin, Qinghai Province, China[J]. China Geology, 5(3):372-382.
ZHAO Jian-tao, CUI Xiao-feng, XIE Fu-ren. 2002. Preliminary analysis the tectonic stress intensity in the source region of Tangshan Earthquake[J]. Acta Seismologica Sinica, 24(3):268-276(in Chinese with English abstract).
ZHAO Jin-zhou, REN Lan, HU Yong-quan. 2013. Controlling factors of hydraulic fractures extending into network in shale formations[J]. Journal of Southwest Petroleum University(Science & Technology Edition), 35(1): 1-9(in Chinese with English abstract).
ZHENG Y B, TANG X M, PATTERSON D J. 2019. Identifying stress-induced anisotropy and stress direction using cross-dipole acoustic logging[R]. SPWLA 50th Annual logging symposium.
ZHOU Zhou, JIN Yan, ZENG Yi-jin, ZHANG Xu-dong, ZHOU Jian, WANG Wen-zhi, MENG Han. 2019. Experimental study on hydraulic fracturing physics simulation, crack initiation and propagation in hot dry rock geothermal reservoir in Gonghe Basin, Qinghai[J]. Journal of Jilin University(Earth Science Edition), 49(5): 1425-1430(in Chinese with English abstract).
ZOBACK M D.2007. Reservoir Geomechanics[M]. New York:Cambridge University Press.
ZOBACK M L. 1992. Stress field constraints on intraplate seismicity in eastern North America[J]. Journal of Geophysical Research: Solid Earth, 97(B8): 11761-11782.
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