基于变维度贝叶斯反演的地热黏土盖层音频大地电磁探测能力研究  

作　　者：朱悦 彭荣华[1] 胡祥云[1] 周文龙 黄顺聪 鲁杏[2] ZHU Yue;PENG Ronghua;HU Xiangyun;ZHOU Wenlong;HUANG Shuncong;LU Xing(School of Geophysics and Geomatics,China University of Geosciences(Wuhan),Wuhan 430074,China;Energy Exploration Center,Geological Exploration Technology Institute of Anhui Province,Hefei 230031,China)

机构地区：[1]中国地质大学(武汉)地球物理与空间信息学院,武汉430074 [2]安徽省勘查技术院地质矿产勘查局能源勘查中心,合肥230031

出　　处：《地质科技通报》2024年第3期341-350,共10页Bulletin of Geological Science and Technology

基　　金：国家自然科学基金项目(42074088);安徽省重点研发计划项目(2022l07020010)。

摘　　要：在地热探测中,黏土盖层作为水热型地热系统的典型标志,其埋藏深度及分布范围可为圈定地热资源的范围及确定地热钻井位置提供重要依据。黏土盖层通常由水热作用所形成的黏土层所构成,表现为低阻特征,利用音频大地电磁法可以对低阻盖层有效成像。为了获得黏土盖层位置分布及成像结果的不确定性信息,采用一维变维度贝叶斯反演方法,利用音频大地电磁数据对地热区低阻盖层的探测能力进行研究。首先进行模型试验,建立一个典型地热系统的地电模型,利用一维变维度贝叶斯算法对合成数据进行反演,获得地下电性结构和界面位置不确定性信息。接着将其应用于山西阳高地热区一条实测音频大地电磁数据处理。模型试验发现该方法对低阻黏土盖层具有较为准确的识别能力,所获得的低阻盖层上、下界面不确定分析的结果也较为可靠。实测数据试验发现,该方法对浅层低阻盖层具有较好的识别能力,并可以给出盖层界面位置的不确定性评价。该测线的二维非线性共轭梯度反演结果验证了一维贝叶斯反演的可靠性。该方法对浅层地热黏土盖层具有较准确的成像能力和不确定性分析能力,在地热探测中具有较强的应用前景。[Objective]In geothermal exploration,a clay cap is a typical hydrothermal geothermal system,and its depth and distribution range can provide crucial information for delineating the scope of geothermal resources and determining the location of geothermal drilling.Clay caps are usually composed of a clay layer formed through hydrothermal reactions and are characterized by low resistance.The low-resistivity cap can be effectively imaged using the audio-frequency magnetotelluric method.To obtain uncertainty information about the distribution of clay cap layers and imaging results,this paper employs the 1D trans-dimensional Bayesian inversion method to investigate the detection capabilities of low-resistance cap layers in geothermal areas through audio electromagnetic data.[Methods]In this paper,a model test is first carried out to establish a geoelectric model of a typical geothermal system.Subsequently,a 1D trans-dimensional Bayesian algorithm is used to invert the synthetic data to obtain the uncertainty information of the subsurface electrical structure and interface position.Then,the method was applied to the processing of measured audio frequency magnetotelluric data in the Yanggao geothermal area of Shanxi Province.[Results]This method has relatively accurate identification ability for low-resistivity clay caps,and the obtained uncertainty analysis results of the upper and lower interfaces of low-resistivity caps are also relatively reliable according to numerical tests.It was found that this method has a good ability to identify shallow low-resistivity caps and can provide an uncertainty evaluation of the clay cap interface position via field data tests.The 2D inversion results of this survey line verify the reliability of the 1D inversion.[Conclusion]This method has relatively accurate imaging capabilities and uncertainty analysis capabilities for shallow geothermal clay caprocks and has strong application prospects in geothermal detection.

关 键 词：地热探测 黏土盖层 大地电磁 贝叶斯反演 水热型地热系统 

分 类 号：P631.3[天文地球—地质矿产勘探]