Abstract
In the early period of evaluation about basic structures, magnetic prospecting provided more convenient way in geophysical prospecting work, with taking advantage of its own characteristics of Less input, easy access to the field, wide range covering for unusual and effective information, data processing and shorter interpretation time. The processing and interpretation of magnetic data, the determination of the fluctuations of the magnetic geological interface and the depth of the magnetic basis, which is one of the important tasks for magnetic prospecting in in solving basin deep tectonic information. Studying the interface of magnetic strata has extremely important theoretical and practical value both in study the formation and evolution of the basin and the distribution of mineral, oil and gas resources, such as oil and gas formation, migration and occurrence
The method of inversion magnetic interface depth can be divided into two categories: frequency domain and space domain,The spatial domain magnetic interface iterative inversion method that we studied in this paper is greatly influenced by the interface average depth of the proper selection, the deeper average interface you chose, the deeper entire interface the study will get, otherwise it will be more shallow. Therefore, it is important to determine the average depth of the interface before the inversion of the magnetic interface depth. The method of using power spectrum to determine the avera
ge depth of the interface are given in this paper, which has a big advantage of getting the result without magnetic interface material before the inversion. But before make confirmation of the initial interface value, We need to extend the observation surface field downward, Based on the iterative method proposed by the academician Xu Shizhe, this paper avoids the problem of divergence of field value effectively.
Based on the theory of model test, which indicates that the magnetic interface in the spatial domain iterative inversion method is reliable, and It has certain pratical application value. At the same time, this method is used to deal with the magnetic survey data of northern south China sea, and obtains the characteristics of the magnetic basement and the fluctuation of the curie-surface in south China sea.
Key words:Magnetic interface, the iterative inversion method, Power spectrum inversion method, the north of the South China Sea
目录
第一章绪论 (1)
yrz1.2国内外研究现状 (2)
1.3主要研究内容及成果 (4)
1.4技术路线 (5)
2.1磁性界面有限单元法正演 (6)
2.2空间域磁性界面迭代反演法 (9)
2.3磁性界面迭代反演的关键技术 (14)龙婕物联流量卡
越南海洋法2.3.2迭代法位场向下延拓 (17)
约玛 奥利拉第三章磁性界面迭代反演方法程序设计 (19)
3.1输入输出数据格式设计 (19)
3.1.1平面位场数据输入格式 (19)
化工生物技术3.1.2平面位场数据输出格式 (19)
3.2磁性界面迭代反演方法程序设计 (20)
3.3求取平均深度方法程序设计 (21)
3.4位场向下延拓迭代法程序设计 (22)
第四章理论模型试算 (24)
4.1单一磁性界面模型反演 (24)
4.2多磁性界面模型反演 (34)
第五章实际资料处理及解释 (42)
5.1研究区概况 (42)
5.2岩石物性特征 (43)
5.3磁性界面起伏反演 (46)
第六章结论与建议 (53)
6.1结论 (53)
6.2建议 (53)
参考文献 (55)
攻读学位期间取得的研究成果 (58)
致谢 (59)
第一章绪论
1.1 选题背景及研究意义
验光组合
自20世纪30年代起,磁法勘探开始应用于我国矿试验工作中,此后随着地质工作的不断深入开展,以及数学物理理论和计算机技术的飞速发展,使得磁法勘探在方法技术、理论创新以及实际应用等各方面得到了快速发展,已成为现代地球物理方法中重要的技术手段之一。基于磁法能在地面、海洋和空中获取大量的观测数据,可以从中获取地表下浅部地质和矿产信息,也可以给地球物理工作者提供深部磁性界面深度信息,从而为大地构造分区、矿产资源勘查以及基础地质研究提供重要的地球物理依据。
在磁测资料定性或者定量解释工作过程中,往往需要磁性起伏界面的深度信息,而且该深度信息对于地球物理工作者或者地质人员来说是非常重要的。此外,研究磁性地质界面起伏,无论对于研究盆地的形成与演化,还是对于研究矿产、油气的生成、运移和赋存等都具有极其重要的理论价值和实际意义。磁性地层顶界面(磁性基底)的构造形态、构造和性质直接影响了盆地内沉积的形式、构造和性质。对于磁性地层底界面(居里面)而言,一般来说对于构造活动较活跃的地区,居里面深度较浅;新生代含油气地层分布在居里面深度较浅的区域,由于地下热液活动,可促进油气的形成;在古、中生代含油气构造地层分布在居里面埋深较深的区域,由于地下热液活动相对较弱,从而适合油气的保存,再借助于居里-外斯定律求取当地的地温场梯度,借助于地温梯度对于盆地内沉积物中有机质的成熟、排烃和油气的保存等都具有极其重要的指示意义,进而为油气的勘探指明了研究方向。研究磁性基底深度以及居里面深度,对于一个新区或一个盆地早期构造单元的划分、资源量预测以及区域地温场的研究和评价,有利远景区的预测等方面都具有极其重要的研究意义[2]。
综上,利用磁测资料反演磁性界面起伏深度是非常有意义的,但至今仍然是一个难以解决的问题。目前,还没有到一种适合于各种地质条件下的反演方法,这是需要进一步研究和解决的问题。一般估算磁性界面深度的目的可以分为两类:(1)在勘探区域寻具有磁性的金属矿时,用磁法估算磁性界面的深度,为后期钻孔的布置提供了钻探深度估计;(2)在研究区域地质构造时,利用提取的不同磁性界面磁异常数据可以估算出不同磁性层界面深度。这对于解决局部矿和区域地球物理问题都有一
豫公网安备41160202000603
站长QQ:729038198
关于我们
投诉建议