Kuzbass段覆盖层短延时爆破减速间隔优化

V. Fedotenko, Stanislav Matva
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To solve this problem, an algorithm was developed implemented in a software package that allows calculating the number of wells being blown up simultaneously; modeling and visually demonstrating the development of an explosion; calculating combinations of values of deceleration values of short-delayed blasting between rows of wells and between wells in a row; quantifying the quality of the found combination of values of deceleration values of short-delayed blasting and visually displaying how much the mass explosion proceeds uniformly in time, as well as the total duration of the explosion. Research results. The calculation of deceleration values combinations of short-delayed blasting between rows of wells and between wells in a row is performed depending on the number of rows of wells and the number of wells in a row for the selected number of wells exploding simultaneously. It is established that with an increase in the number of rows of wells, the number of points corresponding to a particular number of wells being blown up simultaneously (in the interval of 20 ms) decreases. At the same time, the sets of points corresponding to each next step of increasing the number of rows partially belong to the set of points corresponding to the previous step, and solutions for different values of the number of wells in a series with a constant number of rows are mutually exclusive. It is shown that with an increase in the values of the deceleration intervals, the quality of the solution increases in the case of a constant number of wells exploding simultaneously. Conclusion. The choice of optimal deceleration intervals during drilling and blasting operations is an effective way to control the seismic impact on protected objects. 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引用次数: 0

摘要

介绍。在增加钻爆制备覆盖层的体积和强度的同时,爆破对环境和保护对象的负面影响在可接受范围内的水平保持问题的解决,在于改进方法和手段,优化爆破参数,包括确定覆盖层短延时爆破减速间隔的最优值。研究方法和材料。为了解决这个问题,在一个软件包中开发了一种算法,可以计算同时被炸毁的井的数量;模拟和可视化演示爆炸的发展;计算排井间和排井间短延时爆破减速值的组合;将发现的短延迟爆破减速值组合的质量进行量化,并直观地显示出质量爆炸在时间上均匀进行了多少,以及爆炸的总持续时间。研究的结果。选择同时爆炸的井数,根据井的排数和排井的数量,计算井间和排井间的减速值组合。结果表明,随着井排数的增加,在20ms的间隔内,同时爆破的特定井数所对应的点数减少。同时,每一步增加行数对应的点的集合部分属于前一步对应的点的集合,在等量行数的序列中,不同井数值的解是互斥的。结果表明,在一定数量井同时爆炸的情况下,随着减速间隔值的增大,解的质量提高。结论。钻爆作业中最佳减速间隔的选择是控制地震对保护对象冲击的有效途径。从提供爆炸后的复杂效果的角度来看,将减速提高到确保形成额外暴露表面的值是有效的,因为这是获得所需岩石破碎质量和减少地震对受保护物体影响的可能性的结合。重新开始所开发的算法在软件包中实现,可以有效地计算同时爆炸的井数,找到减速值的最优组合,并量化所找到的组合的质量。为了更充分地评估预期的地震影响,有必要计算非最大强度爆炸持续时间与总爆炸持续时间的比率,以百分比表示。与同等数量井同时爆炸的爆炸相比,计算值越大,爆炸产生的地震冲击越小。
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Deceleration interval optimization during short-delayed blasting of overburden in the sections of Kuzbass
Introduction. The solution of the level maintaining problem of blasting negative impact on the environment and protected objects within acceptable values while simultaneously increasing the volume and intensity of preparation of overburden by drilling and blasting lies in the field of improving methods and means, as well as optimizing the parameters of blasting, including by determining the optimal values of deceleration intervals during short-delayed blasting of overburden. Research methods and materials. To solve this problem, an algorithm was developed implemented in a software package that allows calculating the number of wells being blown up simultaneously; modeling and visually demonstrating the development of an explosion; calculating combinations of values of deceleration values of short-delayed blasting between rows of wells and between wells in a row; quantifying the quality of the found combination of values of deceleration values of short-delayed blasting and visually displaying how much the mass explosion proceeds uniformly in time, as well as the total duration of the explosion. Research results. The calculation of deceleration values combinations of short-delayed blasting between rows of wells and between wells in a row is performed depending on the number of rows of wells and the number of wells in a row for the selected number of wells exploding simultaneously. It is established that with an increase in the number of rows of wells, the number of points corresponding to a particular number of wells being blown up simultaneously (in the interval of 20 ms) decreases. At the same time, the sets of points corresponding to each next step of increasing the number of rows partially belong to the set of points corresponding to the previous step, and solutions for different values of the number of wells in a series with a constant number of rows are mutually exclusive. It is shown that with an increase in the values of the deceleration intervals, the quality of the solution increases in the case of a constant number of wells exploding simultaneously. Conclusion. The choice of optimal deceleration intervals during drilling and blasting operations is an effective way to control the seismic impact on protected objects. Increasing the deceleration to a value that ensures the formation of additional exposed surfaces is effective from the point of view of providing a complex effect as a result of an explosion, as a combination of the possibility of obtaining the required quality of rock crushing and reducing the seismic impact on protected objects. Resume. The developed algorithm, implemented in the software package, makes it possible to efficiently calculate the number of wells exploding simultaneously, find the optimal combination of values of deceleration values, quantify the quality of the found combination. For a more adequate assessment of the expected seismic impact, it is necessary to calculate the ratio of the duration of the period of non-maximum intensity of explosions to the total duration of explosions, expressed as a percentage. The larger the calculated value, the less seismic impact the explosion will have when comparing explosions with an equal number of wells exploding simultaneously.
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来源期刊
Sustainable Development of Mountain Territories
Sustainable Development of Mountain Territories Social Sciences-Sociology and Political Science
CiteScore
2.40
自引率
0.00%
发文量
36
期刊介绍: International scientific journal "Sustainable development of mountain territories" covers fundamental and applied regional, national and international research and provides a platform to publish original full papers and related reviews in the following areas: engineering science and Earth science in the field of sustainable development of mountain territories. Main objectives of international scientific journal "Sustainable development of mountain territories" are: raising the level of professional scientific workers, teachers of higher educational institutions and scientific organizations; presentation of research results in the field of sustainable development of mountain areas on the technical aspects and Earth sciences, informing readers about the results of Russian and international scientific forums; improved review and editing of the articles submitted for publication; ensuring wide dissemination for the published articles in the international academic environment; encouraging dissemination and indexing of scientific works in various foreign key citation databases.
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