第 41 卷 第 2 期                                                                       Vol. 41, No. 2
             2022 年 3 月                          Journal of Applied Acoustics                    March, 2022

             ⋄ 研究报告 ⋄



                偶极子声波测井仪发射声系性能快速检测方法                                                                    ∗





                                 刘树键      1,2  陈德华      1,2,3†  曹雪砷     1,3  陈 浩     1,2,3



                                              (1  中国科学院声学研究所      北京   100190)
                                                (2  中国科学院大学     北京   100049)
                                       (3  北京市海洋深部钻探测量工程技术研究中心           北京   100190)

                摘要：该文提出了一种针对偶极子声波测井仪发射声系性能进行快速检测的方法。通过实验测量方法，采用
                专门设计的简易装置测量偶极子声波测井仪发射声系激发的声场波形，并提取声场强度、声源主频以及空间
                分布对称性等特征参数。如果准确掌握了仪器处于完好状态时的这些特征参数，以此为参考依据与实验测量
                结果进行对比，通过设定可接受的相对偏差，就可完成对偶极子声波测井仪发射声系性能的快速评价。相对于
                现有的声波测井仪器检测方法，该方法具有高效、便捷的优势，便于在测井前线基地应用。
                关键词：偶极子声源；发射声系；横波远探测；仪器检测
                中图法分类号: TE151           文献标识码: A          文章编号: 1000-310X(2022)02-0285-08
                DOI: 10.11684/j.issn.1000-310X.2022.02.015





                 A rapid detection method for emission system performance of dipole sonic

                                                      logging tool



                            LIU Shujian 1,2  CHEN Dehua 1,2,3  CAO Xueshen 1,3  CHEN Hao  1,2,3

                               (1 Institute of Acoustics, Chinese Academy of Sciences, Beijing 100190, China)
                                   (2 University of Chinese Academy of Sciences, Beijing 100049, China)
                (3 Engineering and Technology Research Center for Deep Drilling Exploration and Measurement, Beijing 100190, China)

                 Abstract: This paper proposes a rapid detection method for the performance of the emission system of dipole
                 sonic logging tool. Through experimental measurement, the sound field excited by the emission system of dipole
                 sonic logging tool is measured by acquisition device specially designed, and some characteristic parameters such
                 as intensity, dominant frequency and spatial distribution symmetry are extracted. If these characteristic pa-
                 rameters when the dipole sonic logging tool is in good condition are accurately mastered and used as references,
                 a rapid evaluation of the emission performance of the tool can be achieved by comparing references with exper-
                 imental measurements. Compared with the existing dipole sonic logging tool detection methods, this method
                 has the advantages of high efficiency and convenience, and is easy to be applied in the logging site.
                 Keywords: Dipole source; Sonic emission system; Dipole shear-wave imaging; Instrument test


             2021-03-15 收稿; 2021-04-09 定稿
             国家自然科学基金项目 (11734017, 42074174), 北京市科委资助项目 (Z181100003618001)
             ∗
             作者简介: 刘树键 (1990– ), 男, 山东聊城人, 硕士研究生, 研究方向: 电子与通信工程。
              通信作者 E-mail: chendh@mail.ioa.ac.cn
             †