blasthole method
简明释义
深孔爆破开采法
英英释义
例句
1.The efficiency of the blasthole method 钻孔法 can significantly reduce operational costs in mining.
使用blasthole method 钻孔法的效率可以显著降低采矿的运营成本。
2.Safety protocols are critical when employing the blasthole method 钻孔法 to prevent accidents.
在采用blasthole method 钻孔法时,安全规程至关重要,以防止事故发生。
3.During the site survey, we evaluated the effectiveness of the blasthole method 钻孔法 in hard rock conditions.
在现场勘查中,我们评估了blasthole method 钻孔法在坚硬岩石条件下的有效性。
4.The blasthole method 钻孔法 is often used in open-pit mining to create controlled blasts.
在露天采矿中,blasthole method 钻孔法通常用于创建受控爆破。
5.The mining team decided to implement the blasthole method 钻孔法 for more efficient ore extraction.
矿山团队决定实施blasthole method 钻孔法以提高矿石开采效率。
作文
The mining industry has always been at the forefront of technological advancements, and one of the most significant methods employed in this sector is the blasthole method. This technique is particularly vital for extracting minerals from the earth efficiently and safely. The blasthole method involves drilling holes into the rock surface and then filling these holes with explosives to break the rock apart. The process begins with careful planning and surveying of the mining site to determine the best locations for drilling. Once the sites are selected, specialized drilling equipment is used to create holes of specific depths and diameters. This precision is crucial as it directly impacts the effectiveness of the blasting operation.After the holes are drilled, explosives are inserted into them. The type and amount of explosive used can vary depending on the geological conditions and the desired outcome. The blasthole method allows for a controlled explosion, which minimizes the risk of flying debris and ensures that the surrounding environment remains stable. The controlled nature of this method not only enhances safety but also improves the efficiency of the mineral extraction process.Once the explosives are detonated, the resulting fragmentation of the rock makes it easier to transport and process the minerals. This is particularly important in large-scale mining operations where time and cost efficiency are paramount. The fragmented rock can be loaded onto trucks or conveyor belts for further processing, significantly speeding up the overall mining operation.Moreover, the blasthole method is not limited to just one type of mineral extraction. It is versatile enough to be used in various mining contexts, including coal, gold, and copper mining. Each application may require slight adjustments to the drilling and blasting parameters, but the fundamental principles remain the same. This versatility makes the blasthole method a preferred choice among mining companies worldwide.In addition to its operational benefits, the blasthole method also has environmental implications. Modern advancements have led to the development of more eco-friendly explosives and techniques that reduce the impact on surrounding ecosystems. Responsible mining practices are becoming increasingly important, and the blasthole method has evolved to incorporate these considerations into its processes.In conclusion, the blasthole method is a critical technique in the mining industry that exemplifies the intersection of technology and resource extraction. Its ability to provide efficient and safe mineral extraction while adapting to modern environmental standards highlights its importance in today’s mining operations. As the industry continues to evolve, the blasthole method will likely remain a cornerstone of mining practices, ensuring that resources are obtained in a manner that balances efficiency with environmental responsibility.
采矿行业一直处于技术进步的前沿,其中一个重要的方法就是爆破孔法。这一技术在有效且安全地从地下提取矿物方面尤为重要。爆破孔法涉及到在岩石表面钻孔,然后将这些孔填充爆炸物以打破岩石。这个过程始于对采矿现场的仔细规划和勘测,以确定最佳的钻孔位置。一旦选择了地点,专业的钻孔设备就会被用来创建特定深度和直径的孔。这种精确性至关重要,因为它直接影响到爆破作业的有效性。在孔被钻好后,爆炸物被插入其中。使用的爆炸物类型和数量可能因地质条件和所需结果而异。爆破孔法允许进行控制爆炸,从而最大限度地减少飞散碎片的风险,并确保周围环境保持稳定。这种方法的控制特性不仅提高了安全性,还改善了矿物提取过程的效率。一旦爆炸发生,岩石的碎裂使得运输和加工矿物变得更加容易。这在大型采矿作业中尤为重要,因为时间和成本效率至关重要。碎裂的岩石可以装载到卡车或传送带上进行进一步加工,从而显著加快整体采矿操作。此外,爆破孔法并不限于某一种矿物提取。它足够灵活,可以在各种采矿环境中使用,包括煤矿、金矿和铜矿。每种应用可能需要对钻探和爆破参数进行轻微调整,但基本原则保持不变。这种多功能性使得爆破孔法成为全球采矿公司首选的选择。除了其操作优势外,爆破孔法还具有环境影响。现代技术进步导致开发出更环保的爆炸物和技术,减少对周围生态系统的影响。负责任的采矿实践变得越来越重要,而爆破孔法也在其过程中融入了这些考虑。总之,爆破孔法是采矿行业的一项关键技术,体现了技术与资源提取的交汇。它在提供高效、安全的矿物提取的同时,适应现代环境标准,突显了其在当今采矿作业中的重要性。随着行业的不断发展,爆破孔法很可能仍然是采矿实践的基石,确保以平衡效率与环境责任的方式获取资源。
