Ultrasonic inspection of flooded mineshafts for stability monitoring

IF 1.8 Q3 MINING & MINERAL PROCESSING Mining Technology-Transactions of the Institutions of Mining and Metallurgy Pub Date : 2019-04-24 DOI:10.1080/25726668.2019.1607459

M. D. Bedford, D. Gibson, J. Coggan, K. Siever, Aleksander Wrana, Dagmara Sobczak, Olaya Álvarez, C. Satterley

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Abstract

ABSTRACT Inspecting abandoned mine shafts is critical in ensuring their safety through early identification of signs of deterioration. Since the common inspection methods of CCTV and LiDAR are not very effective underwater, two modules have been designed for inspecting the linings of flooded, abandoned mine shafts. Using sonar technology, they allow the early stages of degradation to the lining to be detected which – since this could be indicative of imminent collapse – provides protection against the consequential risk to property and human life. Detailed measurements of several shafts’ cross-sections have been recorded using profiling and imaging sonar technology. Although imaging sonar provides very different results in the confined and reverberant environment of a mine shaft, compared to its more common environment of a seabed, it was shown that when combined with the profiling sonar, it allows shafts to be surveyed in a shorter period of time and improves the reliability of the profiling function.

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水淹矿井稳定性监测的超声探伤

对废弃矿井进行检查是确保其安全的关键，可以及早发现矿井恶化的迹象。由于CCTV和LiDAR的常用检测方法在水下不是很有效，因此设计了两个模块来检测被水淹没的废弃矿井的衬里。利用声纳技术，它们可以检测到衬里退化的早期阶段，因为这可能预示着即将崩溃，因此可以保护财产和人类生命免受随之而来的风险。利用剖面和成像声纳技术，对几个竖井的横截面进行了详细测量。虽然成像声纳在矿井的密闭和混响环境中提供的结果与在海底更常见的环境截然不同，但研究表明，与剖面声纳结合使用，可以在更短的时间内对矿井进行测量，并提高剖面功能的可靠性。

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来源期刊

Mining Technology-Transactions of the Institutions of Mining and Metallurgy MINING & MINERAL PROCESSING-

CiteScore

2.20

自引率

9.10%

发文量