摘要
介绍了CEMP勘探的最优化电性分层解释技术的基本原理,以及在柯克亚山前复杂区的应用效果.针对山前带冲断层发育、构造复杂,造成电阻率剖面失真的研究难点,依据测井技术对电测井曲线的分层原理,提出了CEMP资料的最优化分层方法.并通过模型实验和生产实验证实了该方法的可行性和有效性.采用该方法,结合地震、钻井等资料进行精细构造解释,在查明山前带的地质结构特征,发现新的有利勘探目标方面显示了良好的作用.该方法的运用,在一直难以突破的塔里木盆地柯克亚地区发现了新的构造带.
This paper presents the principle of Optimization Layering Technology to CEMP Profile, and shows a case history in complicated fore-mountains area in Kekeya, Tarim basin in west China. We invent the Optimization Layering Technology to CEMP Profile based on principle of layering technology to electrical logging curve to solve the difficulty of CEMP prospecting in the fore-mountains area. We check the feasibility and the validity of this technology both in experimentation and practice. Using the Optimization Layering Technology and consulting the seismic and well datum to the section analysis, is very useful in the investigation in complicated fore-mountains area and looking for the advantaged objects. This technology makes a breakthrough in the prospecting of fore-mountains area, and we have found new objects in Kekeya area.
出处
《地球物理学进展》
CSCD
北大核心
2007年第2期562-566,共5页
Progress in Geophysics
关键词
CEMP勘探
最优化电性分层技术
山前带
CEMP prospecting, optimization layering technology, fore-mountains area
