Estimation of Coal and Rock Mechanical Properties for Numerical Modelling of Longwall Extraction

Immunotechnology : an international journal of immunological engineering Pub Date : 2020-10-08 DOI:10.29227/IM-2020-02-07

T. Le, C. Nguyen, Vanchi Dao

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Abstract

Reliable estimation of coal and rock mechanical properties at field scale is a prerequisite for numerical modelling of rock behaviours associated with longwall extraction. This paper describes a systematic approach from data collection, laboratory testing to rock mass properties derivation for simulation of longwall extraction, taking two longwall panels at Quang Ninh coalfield in Vietnam for example. The mechanical properties are verified through comparison with published data of the field, indicating close agreements. A simple numerical model is further developed to demonstrate the proper use of the obtained data. The simulation suggests that the ratio of model length to excavation length should be in the range of 2.5–5; uniaxial compressive strength, deformation modulus and tensile strength can be reduced by a factor of 5.0, 2.13 and 2.0, respectively; and a calibration and validation process must be performed to match in-situ longwall’s behaviours. The approach can be applied for derivation of reliable rock mass properties for numerical simulation of underground excavations.

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长壁抽采数值模拟中煤岩力学特性估算

在现场规模上可靠地估计煤和岩石的力学性质是对与长壁开采相关的岩石行为进行数值建模的先决条件。本文以越南广宁煤田的两个长壁工作面为例，介绍了一种从数据收集、实验室测试到岩体性质推导的系统方法，以模拟长壁开采。通过与该领域已公布的数据进行比较，验证了机械性能，显示出密切的一致性。进一步开发了一个简单的数值模型，以证明所获得数据的正确使用。模拟表明，模型长度与开挖长度的比值应在2.5–5之间；单轴抗压强度、变形模量和抗拉强度可分别降低5.0、2.13和2.0倍；并且必须执行校准和验证过程以匹配现场长壁的行为。该方法可用于地下开挖数值模拟中可靠岩体性质的推导。

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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Immunotechnology : an international journal of immunological engineering

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