391 / 2018-09-19 09:21:59
Freezing on Demand: A New Concept for Mine Safety and Energy Savings in Wet Underground Mines
artificial ground freezing; wet underground; freezing on demand
摘要录用
Agus Sasmito / McGill University
Mahmoud Alzoubi / McGill University
Aurelien Nie-Rouquette / McGill University
Ahmad Zueter / McGill University
Traditional Artificial Ground Freezing (AGF) systems are designed to seal-off ground water seepage into the work area and to strengthen the rock mass structure thus providing a safe work environment. As this continuous procedure requires significant amount of energy, a new technique has been developed at McGill Mine Multiphysics laboratory, which minimizes the energy consumption while ensuring the personnel safety by maintaining nearby walls frozen. This new concept, called Freezing on Demand (FoD), is presented and discussed analytically and experimentally in this paper. A laboratory scale AGF rig was built to experimentally analyze the behavior of the thermal ground interaction. Furthermore, a three-dimensional conjugate heat transfer mathematical model was developed and validated to simulate the transient FoD concept. The effect of the inlet coolant temperature was analyzed. The results reveal that considerable energy savings can be achieved through the FoD method. Moreover, energy savings increase while decreasing the coolant inlet temperature in the FoD method.
重要日期
  • 会议日期

    10月22日

    2018

    10月24日

    2018

  • 05月31日 2018

    摘要截稿日期

  • 07月05日 2018

    初稿截稿日期

  • 08月10日 2018

    初稿录用通知日期

  • 10月24日 2018

    注册截止日期

主办单位
北京科技大学
McGill University
中国矿业大学(北京)
河南理工大学
University of Wollongong
东北大学
重庆大学
中国矿业大学
Laurentian University
辽宁工程技术大学
西安科技大学
北方工业大学
江西理工大学
黑龙江科技大学
协办单位
中国职业安全健康协会
中国安全生产科学研究院
煤炭信息研究院
中安安全工程研究院
International Journal of Mining Science and Technology
Safety Science
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