首页 | 本学科首页   官方微博 | 高级检索  
文章检索
  按 检索   检索词:      
出版年份:   被引次数:   他引次数: 提示:输入*表示无穷大
  收费全文   2篇
  完全免费   1篇
  地球物理   3篇
  2020年   1篇
  2002年   1篇
  1989年   1篇
排序方式: 共有3条查询结果,搜索用时 125 毫秒
1
1.
岩石破裂过程中电阻率变化机理的探讨   总被引:4,自引:4,他引:28  
受压岩石在破裂过程中,视电阻率会出现明显的变化,其异常形态与实验条件有很大的关系,实验中对磁铁石英岩样品施加了单轴压缩,岩石的破裂经反复加载和卸载实现,并在岩样的裂隙中注入了食盐溶液,在实验的各阶段,对样品的主剖面重建出一系列内剖真电阻率分布的图像,揭示了介质内的微细结构,从而探讨了视电阻率变化的原因,实验发现,岩石中裂隙的存在及所含液体的饱和状态,是岩石在主破裂前控制电阻率变化的两个最重要的因素;低应力状态属常态导电过程,孔隙度的变化是主要因素;高应力状态属裂隙表面导电机制,随着破裂面在岩体内部出现,水和也隙有了完全贯通的平面,多种导电机制都得以发挥作用,此外,体导电结构的变化在宏观上表现为各向异性和图样有序性的增强。  相似文献
2.
韩彪  冯锐 《地球物理学报》1989,32(4):409-416
CT技术图象重建方法可分为变换法和代数法两大类。本文讨论了几种代数重建法的特点,开展了地球物理CT技术在岩石实验中应用的探讨性工作。研究表明,实验数据的测量误差直接影响着反演结果,当测量误差比较大时,即使数据量很大,也难以提高反演结果的分辨。岩样的吸收、换能器与样品的耦合、岩样均匀性等因素对实验数据的测量精度都有着重要的影响。文中还针对实验条件进行了数值模拟,以检验本方案的可行性,并对当前流行的BPT、ART和SIRT算法及其组合算法的成象能力结合本实验的条件进行了性能的比较。结果表明:BPT方法计算简单,但所给出的图象偏粗糙,特别是在井间观测时水平方向的分辨率较差;ART方法收敛速度快,图象的反差大,反演结果的高频成分比较丰富,但边界异常大;SIRT方法收敛速度慢,图象的低频比较好,结构平滑,边界异常小,反演受测量误差的影响比较小。综合了ART和SIRT两种反演方法特点的ART-SIRT联合反演方法比较理想,发挥出了各自的长处。  相似文献
3.
Hutubi Underground Gas Storage (UGS) is an important part of China''s West-East Gas Pipeline Project. Its production safety also plays an essential role in ensuring peaking, emergency and reserve of natural gas in the region. Geophysical observations and research conducted on Hutubi UGS provide significant support for understanding the operation status and ensuring safe operation of the UGS. Since the beginning of the construction of Hutubi UGS and its production, several works including gas field observation experiments,rock experiments and numerical simulations have been conducted. Preliminary observational results show that during the initial operation stage of the UGS, the "breathing phenomenon" in caprock and microseismicity in the vicinity are closely related to the operation of the gas storage. However,rock experiments and numerical simulations show that these activities may gradually weaken with the multi-cycle operation of gas storage. The impact of the operation of Hutubi UGS in the surrounding areas is gradually weakening, and its operation tends to be stable.Implementing long-term and multi-method geophysical observations is able to provide us a better understanding of the relationship between the operation of UGS and regional geological hazards. On this basis, the corresponding geomechanical model can be established to form an effective risk management mechanism for gas storage operation. Thus, it is of great significance to understand its operation status, monitor storage conditions, guide production and operation, and ultimately guarantee the safe production of the gas storage.  相似文献
1
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号