SC-CO2与工业乳化炸药破岩效应等效试验研究

Equivalent experimental study on rock breaking of SC-CO2 and industrial emulsion explosive

  • 摘要: 如何定量化核算SC-CO2(超临界二氧化碳)破岩效率是非炸药类破岩技术工程应用、经济性比较中的重点关注内容。通过工业乳化炸药等效当量计算,选择典型代表性花岗岩及泥岩场地,设计 SC-CO2 与工业炸药破岩效应等效对比现场试验方案;基于破岩等效现场试验,对比分析试验过程 SC-CO2 与工业炸药破岩体积、破岩区域形态、 大块率及单耗等破岩区域特征及参量。研究结果表明:SC-CO2破岩体积较大时,其致裂破岩范围的长短轴越长,二氧化碳单耗是炸药单耗的6~10倍。SC-CO2破岩技术大块率较高,而炸药爆炸应力波分布均匀,大块率较小。SC-CO2破岩地表振速远小于工业炸药破岩,工业炸药爆破测点合振速值为SC-CO2破岩测点合振速值的9~11倍,SC-CO2破岩对周边环境震动影响较小。SC-CO2破岩测点合应力峰值高于工业炸药破岩,SC-CO2破岩试验中各测点合应力值为炸药破岩试验中对应测点值的1.2~1.6倍。

     

    Abstract: How to quantitatively calculate the rock breaking efficiency of SC-CO2 (supercritical carbon dioxide) is the focus of attention in the engineering application and economic comparison of non-explosive rock breaking technology. Through the equivalent equivalent calculation of industrial emulsion explosive, the typical representative granite and mudstone sites are selected, and the field test scheme of equivalent comparison of rock breaking effect between SC-CO2 and industrial explosive is designed. Based on the equivalent field test of rock breaking, the characteristics and parameters of rock breaking area such as rock breaking volume, rock breaking area shape, bulk rate and unit consumption of SC-CO2 and industrial explosives in the test 收稿日期:2024-04-29 基金项目: 国家自然科学基金(41972286、42072309、42102329)精细爆破国家重点实验室开放基金(PBSKL2023A1) process are compared and analyzed, and the equivalent conversion formula correction based on rock breaking volume is realized. The results show that when the volume of SC-CO2 rock breaking is large, the long and short axes of the rock breaking range are longer, and the unit consumption of carbon dioxide is 6 ~ 10 times that of explosives. The bulk rate of SC-CO2 rock breaking technology is high, while the explosive stress wave is evenly distributed and the bulk rate is small. The surface vibration velocity of SC-CO2 rock breaking is much smaller than that of industrial explosive rock breaking. The combined vibration velocity of industrial explosive blasting measuring point is 9 ~ 11 times that of SC-CO2 rock breaking measuring point. SC-CO2 rock breaking has little effect on the surrounding environment vibration. The peak value of the combined stress of the SC-CO2 rock breaking point is higher than that of the industrial explosive rock breaking. The combined stress of each measuring point in the SC-CO2 rock breaking test is 1.2 ~ 1.6 times that of the corresponding measuring point in the explosive rock breaking test.

     

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