Air leakage mechanism and hole sealing technology in directional long-drilled perimeter rock-borehole composite fissures: for Gas enrichment in varying coal-seam thickness change areas

IF 6.9 2区环境科学与生态学 Q1 ENGINEERING, CHEMICAL

Process Safety and Environmental Protection Pub Date : 2024-11-05 DOI:10.1016/j.psep.2024.11.012

Xuexi Chen , Peixue Han , Jiaying Hu , Tao Yang , Aitao Zhou , Jihong Sun

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引用次数: 0

Abstract

The issue of gas enrichment in the tectonic zone of coal seams, which poses significant threats to coal mine safety and leads to gas disasters, is primarily addressed through borehole extraction. The quality of this extraction is notably influenced by air leakage and sealing technologies used during drilling. To tackle the problem of gas leakage in directional long boreholes within the floor, a composite fissure leakage model for the surrounding rock and borehole is developed. This model inverts the characteristics of coal seam thickness variations and abnormal gas enrichment through heterogeneous geostatistical modeling. It enables the quantitative characterization of the air leakage mechanism in directional long boreholes of the bottom plate and proposes an effective sealing process. Due to damage and disturbance, fissures and irregular plastic zones form around the excavated roadway, which are major contributors to air leakage. Over time, the air content in the coal and rock seams gradually increases while the gas content and concentration decrease continuously. Compared to the polyurethane "two plugs and one injection" sealing process, the multi-stage grouting and sealing process provides a more stable gas extraction concentration and flow rate in the sealed drill holes. This process effectively seals the fissure zones of the roadway, reduces air leakage from the boreholes, and improves gas extraction concentration.

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定向长钻围岩-钻孔复合裂隙的漏气机理与封孔技术：用于不同煤层厚度变化区域的瓦斯富集

煤层构造带的瓦斯富集问题对煤矿安全构成重大威胁，并导致瓦斯灾害，这一问题主要通过钻孔抽采解决。钻孔过程中使用的漏风和密封技术对抽采质量有显著影响。为解决底板内定向长钻孔的瓦斯泄漏问题，开发了一种围岩和钻孔的复合裂隙泄漏模型。该模型通过异质地质统计建模，反演了煤层厚度变化和瓦斯异常富集的特征。该模型可定量描述底板定向长钻孔的漏气机理，并提出有效的封孔工艺。由于破坏和扰动，开挖巷道周围会形成裂隙和不规则塑性区，这是造成漏气的主要原因。随着时间的推移，煤层和岩层中的空气含量逐渐增加，而瓦斯含量和浓度则不断降低。与聚氨酯 "两堵一注 "封孔工艺相比，多级注浆封孔工艺可使被封钻孔的瓦斯抽采浓度和流量更加稳定。该工艺可有效封堵巷道裂隙带，减少钻孔漏气，提高瓦斯抽采浓度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Process Safety and Environmental Protection 环境科学-工程：化工

CiteScore

11.40

自引率

15.40%

发文量

929

审稿时长

8.0 months

期刊介绍： The Process Safety and Environmental Protection (PSEP) journal is a leading international publication that focuses on the publication of high-quality, original research papers in the field of engineering, specifically those related to the safety of industrial processes and environmental protection. The journal encourages submissions that present new developments in safety and environmental aspects, particularly those that show how research findings can be applied in process engineering design and practice. PSEP is particularly interested in research that brings fresh perspectives to established engineering principles, identifies unsolved problems, or suggests directions for future research. The journal also values contributions that push the boundaries of traditional engineering and welcomes multidisciplinary papers. PSEP's articles are abstracted and indexed by a range of databases and services, which helps to ensure that the journal's research is accessible and recognized in the academic and professional communities. These databases include ANTE, Chemical Abstracts, Chemical Hazards in Industry, Current Contents, Elsevier Engineering Information database, Pascal Francis, Web of Science, Scopus, Engineering Information Database EnCompass LIT (Elsevier), and INSPEC. This wide coverage facilitates the dissemination of the journal's content to a global audience interested in process safety and environmental engineering.