stope
简明释义
n. 梯段形开采面
v. 用梯段法采矿;受顶蚀作用
n. (Stope)(美)施托佩(人名)
复 数 s t o p e s
第 三 人 称 单 数 s t o p e s
现 在 分 词 s t o p i n g
过 去 式 s t o p e d
过 去 分 词 s t o p e d
英英释义
单词用法
地下采矿空间 | |
开放式采矿空间 | |
切填采矿空间 | |
采矿空间设计 | |
采矿空间稳定性 | |
采矿空间回收率 |
同义词
| 挖掘 | 这个采场被仔细挖掘,以最大化矿石回收。 | ||
| 矿 | 工人们下到矿井开始他们的班次。 | ||
| 隧道 | 这个隧道系统被设计成支持多个采场。 |
反义词
| 填充 | 他们决定填充这个采空区以防止任何事故。 | ||
| 关闭 | The mine was closed to ensure safety after the stope collapsed. | 在采空区坍塌后,矿井被关闭以确保安全。 |
例句
1.Blasting technologies to ensure the stope stability in the process of the stope mining are described in this paper.
文章就高阶段采场回采过程中为确保采场稳定对所采用的爆破技术进行阐述。
2.The mode for evaluating stope reliability built here can not only be used for the stopes of non-coal mines, but also for all sorts of mines.
所建立的采场可靠性模糊综合评价模式,不仅适用于非煤矿山采场,而且适用于各种类型的矿山采场。
3.Major hazards in middle district of Zaozhuang city are karst collapse, stope out collapse and break down.
枣庄市市中区主要地质灾害有喀斯特塌陷、采空塌陷和崩塌。
4.Water drainage in hollow open pit stope is a key link of production.
凹陷露天采场排水是一个十分重要的生产工艺环节。
5.Ground pressure monitoring devices were put into operation in the stope for daily observation.
并在采场中埋设了地压观测仪器进行日常观测。
6.That perches in the soul and sings the elegy without the words, and never stope.
它栖息在灵魂之中,唱著无词的悲歌,永远不会停息。
7.During the inspection, we found that the stope had some structural weaknesses.
在检查过程中,我们发现 采矿巷 存在一些结构弱点。
8.The miners carefully descended into the stope to extract more ore.
矿工们小心翼翼地 descend 进入 采矿巷 以提取更多矿石。
9.The company decided to expand the stope to increase production efficiency.
公司决定扩展 采矿巷 以提高生产效率。
10.The geologist mapped out the stope to assess its potential for gold extraction.
地质学家绘制了 采矿巷 的地图,以评估其黄金提取的潜力。
11.Safety protocols must be followed when working in a stope.
在 采矿巷 工作时必须遵循安全规程。
作文
In the world of mining, the term stope (巷道) plays a crucial role in the extraction of valuable minerals from the earth. A stope is essentially an underground excavation that is created during the mining process. It is the space left behind after ore has been removed, and its design is vital for the safety and efficiency of mining operations. Understanding how a stope is formed and its significance can provide valuable insights into the mining industry. The creation of a stope begins with the identification of an ore body, which is a concentration of minerals that can be economically extracted. Miners first drill into the rock to create a series of holes, which are then filled with explosives. When detonated, these explosives break apart the rock, allowing miners to access the ore. The area where the ore is extracted becomes the stope, while the surrounding rock remains intact to support the mine structure. There are several methods for creating a stope, including cut-and-fill, sublevel stoping, and room and pillar mining. Each method has its advantages and disadvantages, depending on factors such as the type of ore, the geology of the site, and economic considerations. For example, in cut-and-fill mining, the ore is removed in horizontal slices, and the voids are filled with waste material to provide support. This method is often used in steeply dipping deposits. On the other hand, sublevel stoping involves creating multiple levels of stopes that allow for more efficient ore extraction in deeper mines. Safety is a paramount concern when it comes to stope design. The stability of the surrounding rock is critical to prevent collapses that could endanger miners. Engineers must carefully analyze the geological conditions and monitor the integrity of the stope as mining progresses. Additionally, ventilation is essential to ensure that miners have access to fresh air and to mitigate the risks associated with dust and gas emissions. The impact of stope mining extends beyond the immediate environment. The removal of large quantities of rock can lead to surface subsidence, which may affect nearby communities and ecosystems. Therefore, responsible mining practices are essential to minimize environmental damage and ensure the sustainability of resources. Many companies are now adopting more advanced technologies to monitor and manage stope stability, aiming to reduce their ecological footprint while maximizing productivity. In conclusion, the concept of a stope is fundamental to the mining industry. It represents not only the physical space left after ore extraction but also the intricate balance between resource extraction and environmental stewardship. As the demand for minerals continues to rise, understanding the complexities of stope mining will be essential for future generations of miners and engineers. By prioritizing safety, efficiency, and sustainability, the mining industry can continue to thrive while respecting the planet's resources.
在采矿的世界中,术语stope(巷道)在从地球中提取有价值矿物的过程中起着至关重要的作用。stope本质上是一个地下挖掘,是在采矿过程中形成的。当矿石被移除后,留下的空间就是stope,其设计对采矿操作的安全性和效率至关重要。理解stope的形成及其重要性可以为我们提供对采矿行业的宝贵见解。创建stope的过程始于识别矿体,即可以经济开采的矿物浓集。矿工首先在岩石中钻孔,形成一系列孔,然后将这些孔填充爆炸物。当爆炸发生时,这些爆炸物会击碎岩石,使矿工能够接触到矿石。被开采的区域成为stope,而周围的岩石则保持完整以支撑矿井结构。创建stope的方法有多种,包括切填法、分层采矿和房柱法。每种方法都有其优缺点,具体取决于矿石类型、现场地质和经济考虑。例如,在切填法中,矿石在水平切片中被移除,空洞用废料填充以提供支撑。这种方法通常用于陡倾矿体。另一方面,分层采矿涉及创建多个stope层,以便在更深的矿井中更有效地提取矿石。安全是stope设计中的首要关注点。周围岩石的稳定性对防止可能危及矿工的塌方至关重要。工程师必须仔细分析地质条件,并在采矿过程中监测stope的完整性。此外,通风对于确保矿工获得新鲜空气以及减轻与粉尘和气体排放相关的风险至关重要。stope采矿的影响超出了直接环境。大量岩石的移除可能导致地表沉降,这可能影响附近的社区和生态系统。因此,负责任的采矿实践对于最小化环境损害和确保资源的可持续性至关重要。许多公司现在正在采用更先进的技术来监测和管理stope的稳定性,旨在在最大化生产率的同时减少生态足迹。总之,stope的概念是采矿行业的基础。它不仅代表了矿石开采后留下的物理空间,还代表了资源开采与环境保护之间的复杂平衡。随着对矿物需求的不断增加,理解stope采矿的复杂性对于未来几代矿工和工程师至关重要。通过优先考虑安全、效率和可持续性,采矿行业可以在尊重地球资源的同时继续繁荣。
