| 极地深部冰层取心钻探孔壁水压致裂研究 |
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| 引用本文: | 张晗,陈晨,Pavel Talalay,毛建设,刘书源,靳成才,宛召.极地深部冰层取心钻探孔壁水压致裂研究[J].探矿工程,2018,45(11):5-11. |
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| 作者姓名: | 张晗 陈晨 Pavel Talalay 毛建设 刘书源 靳成才 宛召 |
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| 作者单位: | 吉林大学建设工程学院,吉林大学建设工程学院,吉林大学建设工程学院,中石化中原石油工程有限公司管具公司,林大学建设工程学院,吉林大学建设工程学院,中国葛洲坝集团三峡建设工程有限公司 |
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| 基金项目: | 国土资源部公益性项目(编号:201311041)与省校共建新能源专项(编号:SXGJSF2017-5)提供压裂设备经费支持;国家自然科学基金项目(编号:41327804与41672361)与吉林大学科学与技术创新团队(编号:2017TD-24)提供材料、人员及其他支持 |
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| 摘 要: | 为了维护极地深部冰层取心钻探工作中钻孔的稳定,避免孔内事故的发生,冰层孔壁的水压致裂问题是亟待解决的重要科学问题之一。本文在深入分析国内外冰层钻探资料的基础上,结合冰盖动力学相关理论,计算得出了钻孔所在区域冰层的密度、温度及内部应力随深度的变化规律。在此基础上,结合油气资源勘探水力压裂技术与冰层钻进钻井液等相关理论,建立了合理的孔壁压差计算方法,深入探讨了适用于深部冰层钻探孔壁水压致裂机理。研制了冰层钻孔水压致裂模拟实验装置,可分析研究不同围压条件下冰样的脆性变形机理。结合我国Dome A深冰心钻探工程实际,提出钻孔可能发生水压致裂的深度区域及孔壁所需的起始裂纹长度判定,以期为后续的安全高效冰层钻进提供重要的理论依据。
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| 关 键 词: | 水压致裂 冰层钻探 钻井液 水压致裂模拟实验 脆性变形 |
| 收稿时间: | 2018/7/5 0:00:00 |
| 修稿时间: | 2018/7/5 0:00:00 |
Research on Hydraulic Fracturing in Deep Ice Core Drilling Borehole Wall |
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| ZHANG Han,CHEN Chen,Pavel Talalay,MAO Jian-she,LIU Shu-yuan,JIN Cheng-cai and WAN Zhao.Research on Hydraulic Fracturing in Deep Ice Core Drilling Borehole Wall[J].Exploration Engineering(Drilling & Tunneling),2018,45(11):5-11. |
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| Authors: | ZHANG Han CHEN Chen Pavel Talalay MAO Jian-she LIU Shu-yuan JIN Cheng-cai and WAN Zhao |
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| Institution: | College of Construction Engineering, Jilin University,College of Construction Engineering, Jilin University,College of Construction Engineering, Jilin University,The Company of Drilling Tubes DdDdTools Service, Zhongyuan Petroleum Engineering Co., Ltd., Sinopec,College of Construction Engineering, Jilin University,College of Construction Engineering, Jilin University,Chinese Gezhouba Group Three Gorges Construction Engineering Co., Ltd. |
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| Abstract: | In order to maintain the stability of deep ice core drilling borehole wall and avoid the occurrence of in-hole accidents, the hydraulic fracture become one of the important scientific problem which need to be solved urgently. On the basis of deep analysis of the ice drilling data, and combining the ice sheet dynamics related theory, we calculated the change rules of ice density, temperature and internal stress with depth. Then, combining the hydraulic fracturing technology in oil and gas resources exploration drilling and ice drilling fluid theory, we established a reasonable differential pressure calculation method of ice borehole wall and discusses the mechanism of hydraulic fracturing for deep ice drilling deeply. By developing a true-triaxial hydraulic fracturing equipment, we obtained the brittle deformation mechanism of ice borehole under different confining pressures. Combining the actual deep ice core drilling in Dome A, we obtained the depth interval and necessary initial fracture length of occurring potential hydraulic fracture in this borehole. This method provides an important theoretical basis for subsequent safe and efficient in future ice drilling engineering. |
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| Keywords: | hydraulic fracturing ice drilling drilling fluid hydraulic fracturing simulation experiment brittle deformation |
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