資源・素材2024(秋田)

講演情報(2024年8月7日付 確定版)

企画講演

【企画講演】岩盤工学と異分野の融合 [9/11(水) AM 第1会場]

2024年9月11日(水) 09:00 〜 11:50 第1会場 (一般教育2号館 1F 101)

司会:才ノ木 敦士(熊本大学)、羽柴 公博(東京大学)

●近年,持続可能な発展を目的として,様々な大深度地下開発・利用手法が新たに提案され,岩盤工学が取り扱う事象が複雑化してきている。このような状況に対応するためには,従来の岩盤工学が主として対象としてきた岩盤の物理,力学,水理特性のみではなく,化学,微生物学,鉱物学,情報技術などの異分野の知見が必要となる。本セッションでは,岩盤工学と関連する最先端の異分野融合研究の例を紹介する。

<発表:25分中、講演20分、質疑応答5分/1件>

09:05 〜 09:30

[2101-06-01] Microwave irradiation for rock precondition in mining excavation

○Sasmito Agus1 (1. McGill University )

司会:才ノ木 敦士(熊本大学)

キーワード:rock-microwave、rock preconditioning、mining excavation

Efficiently breaking hard rocks remains a persistent challenge in mining and geotechnical engineering. Traditional explosive-based methods such as blasting, while effective in some cases, bring about a host of issues including but not limited to continuous productivity rate, noise pollution, dust, vibration, mine collapse, and safety hazards. Consequently, the mining sector seeks to transition from non-continuous explosive-based techniques to continuous mining approaches. However, continuous mining methods suffer from drawbacks such as the short life span of the cutting blades, especially when dealing with hard rocks. Rock pre-conditioning has emerged as a promising solution to address the challenges and facilitate the shift towards continuous mining. Among the various pre-conditioning methods, microwave treatment has achieved significant attention over the past decade. This research endeavours to assess the efficacy of microwave treatment as a rock pre-conditioning method through a combination of experimental and numerical analyses for field applications and introduce potential ways for its improvement. A comprehensive series of experiments, including microwave treatment, calorimetric measurements, thermal imaging, and rock mechanical testing, are conducted using a novel energy efficiency-based approach. Additionally, a fully coupled numerical model is developed to simulate heat transfer and energy absorption behaviours in rocks during microwave treatment, validated against experiments conducted in this study. The developed numerical model is leveraged to enhance the energy efficiency of microwave treatment experiments. Through the integration of an energy efficiency-focused perspective, this research offers new insights into the potential application of microwave treatment for rock pre-conditioning in field settings. Moreover, the developed numerical model contributes to a deeper understanding of the mechanisms underlying microwave treatment and aids in achieving superior energy efficiency in experimental and potential field outcomes.

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