Challenges of rock drilling and opportunities from bio-boring

Yumeng Zhao, Sheng Dai
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引用次数: 4

Abstract

Drilling plays a significant role in the history of human civilization. The exploration of greater depths, extreme environments, or hazardous areas calls for more energy-efficient and high levels of autonomous drilling technologies with reduced cost and improved safety. Meanwhile, nature presents numerous biological boring examples that can be a source of inspiration to renovate our current drilling technologies. This paper reviews both man-made and biological drilling strategies and quantifies their performance by the dimensionless specific drilling energy and the rate of penetration. The results highlight that rotary drilling (including tunnel boring machines) remains the most popular method for subsurface drilling due to its advanced technical status and fewer environmental concerns. For harder rocks, the specific energy of rotary drilling increases dramatically, while percussion drilling requires nearly the same if not lower specific energy but with compromised bit durability that can significantly slow down the drilling operation. Innovative drilling technologies developed and tested in the laboratory still demand improved energy efficiency and penetration rate to be competitive. Bio-boring by natural organisms mostly outperforms man-made drilling technologies in terms of energy efficiency, penetration rate, or both. Studying the underlying mechanisms of bio-boring and translating such knowledge into developing innovative drilling technologies are of significance to subsurface construction and exploration.

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岩石钻探的挑战和生物钻孔带来的机遇
钻井在人类文明史上发挥着重要作用。对更大深度、极端环境或危险区域的勘探需要更节能、更高水平的自主钻井技术,以降低成本和提高安全性。与此同时,大自然提供了许多生物无聊的例子,这些例子可以成为我们更新当前钻井技术的灵感来源。本文综述了人工和生物钻井策略,并通过无量纲比钻井能量和渗透率来量化它们的性能。研究结果表明,旋转钻井(包括隧道钻机)由于其先进的技术地位和较少的环境问题,仍然是最受欢迎的地下钻井方法。对于较硬的岩石,旋转钻井的比能显著增加,而冲击钻井需要几乎相同的比能(如果不是更低的话),但钻头耐久性受损,这会显著减慢钻井操作。实验室开发和测试的创新钻井技术仍然需要提高能源效率和渗透率才能具有竞争力。天然生物钻孔在能源效率、渗透率或两者方面大多优于人工钻孔技术。研究生物钻孔的潜在机制,并将这些知识转化为开发创新的钻井技术,对地下施工和勘探具有重要意义。
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