第 40 卷 第 5 期                                                                       Vol. 40, No. 5
             2021 年 9 月                          Journal of Applied Acoustics                 September, 2021

             ⋄ 研究报告 ⋄



                             随钻新型隔声体的声学性能研究                                               ∗





                                邹晓晶      1   郑晓波     2   寇 兴    1   王魏魏      1   关 威    1†



                                            (1  哈尔滨工业大学航天学院       哈尔滨    150001)
                                         (2  中国工程物理研究院流体物理研究所          绵阳   621900)

                摘要：随钻声波测井近年来逐渐发展为新兴的勘探方式，但钻探过程中产生的钻铤波会影响地层信号的提取，
                众多研究学者将如何更有效地提取地层信号作为了研究的重点课题。该文基于声子晶体理论设计了一种新型
                隔声体，相对于传统刻槽结构能够更好地压制钻铤波。首先基于周期结构理论，利用有限元软件计算了不同
                刻槽结构的能带图，相比于传统刻槽结构，新型隔声体有更宽的带隙，说明新型刻槽结构可以更有效地阻隔钻
                铤波。接着在测井模型中对刻槽结构进行频响函数曲线的计算，验证了新型刻槽结构隔声效果在所计算频率
                范围内优于传统刻槽结构。然后分析了在能带计算和频响曲线计算下隔声效果最好的声源频率 (17 kHz 和
                22 kHz) 时新型刻槽结构的时间慢度相关法处理对比。最后对比声源频率 17 kHz 下，新型刻槽和传统刻槽结
                构时间慢度相关法信号处理的结果，可以发现，声源频率 17 kHz 时新型刻槽结构能更好地提取地层折射横波
                和纵波。
                关键词：能带；有限元法；频响曲线；信号处理
                中图法分类号: TE2           文献标识码: A          文章编号: 1000-310X(2021)05-0760-07
                DOI: 10.11684/j.issn.1000-310X.2021.05.015


                        Acoustic study of drill collar grooving based on a new type of

                                                wave insulation body



                       ZOU Xiaojing 1  ZHENG Xiaobo   2  KOU Xing  1  WANG Weiwei   1  GUAN Wei  1

                              (1  School of Astronautics, Harbin Institute of Technology, Harbin 150001, China)
                         (2  Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang 621900, China)

                 Abstract: Drilling with acoustic logging has gradually developed into an emerging exploration method in
                 recent years. But the collar waves generated during the drilling process can affect the extraction of formation
                 signals. Many researchers have made the extraction of formation signals more effective a key topic of research.
                 In this paper, a new type of sound isolator is designed based on phononic crystal theory, which can better
                 suppress the collar waves compared with the traditional grooved structure. Firstly, based on the periodic
                 structure theory, the band diagrams of different grooved structures were calculated by using the finite element
                 software. The new sound isolator has a wider band gap compared with the traditional grooved structure, which
                 indicates that the new grooved structure can block the collar waves more effectively. Then, the frequency
                 response function curve of the grooved structure was calculated in the logging model, and it was verified that


             2021-05-04 收稿; 2021-07-12 定稿
             国家自然科学基金项目 (11734017, 41874129)
             ∗
             作者简介: 邹晓晶 (1996– ), 女, 山东烟台人, 硕士研究生, 研究方向: 弹性波在地球物理中的应用。
             † 通信作者 E-mail: guanw@hit.edu.cn