mining with stowing

简明释义

充填开采

英英释义

例句

1.By utilizing mining with stowing, the company was able to maximize ore recovery.

通过利用填充采矿，公司能够最大化矿石回收率。

2.The mining company trained its workers on the best practices for mining with stowing techniques.

矿业公司对工人进行了关于填充采矿技术最佳实践的培训。

3.One of the main advantages of mining with stowing is the reduction of surface subsidence.

使用填充采矿的主要优点之一是减少地表沉降。

4.The team decided to implement mining with stowing in order to enhance safety and reduce waste.

团队决定实施填充采矿以增强安全性并减少废物。

5.The engineers conducted a study on the efficiency of mining with stowing in deep underground operations.

工程师对深层地下作业中填充采矿的效率进行了研究。

作文

Mining is a crucial industry that provides essential resources for our daily lives, from the metals used in electronics to the coal that powers our homes. Among the various techniques employed in mining, mining with stowing plays a significant role, particularly in underground operations. This method involves the filling of mined-out areas with waste materials or stowing materials to prevent collapse and ensure the safety of miners. The practice of mining with stowing not only enhances the stability of the mine structure but also contributes to environmental sustainability by reducing surface waste. The process of mining with stowing typically begins after a section of ore has been extracted. Instead of leaving the empty voids behind, which can lead to subsidence and other geological hazards, miners fill these spaces with materials such as rock, tailings, or other waste products generated during the mining process. This technique is particularly beneficial in soft rock mining, where the risk of cave-ins is higher. By implementing mining with stowing, mining companies can maintain the integrity of the surrounding rock and minimize the potential for accidents.Furthermore, mining with stowing is not just about safety; it also has economic implications. By reusing waste materials, mining operations can reduce costs associated with waste disposal. This practice aligns with the principles of circular economy, where resources are kept in use for as long as possible. In regions where land is scarce, mining with stowing allows for more efficient use of space, as it mitigates the need for large tailings ponds on the surface. Environmental concerns are increasingly influencing mining practices, and mining with stowing addresses some of these issues directly. By filling mined-out areas, the method helps to limit the impact of mining activities on the landscape. It reduces the visual footprint of mining operations and can help restore ecosystems more effectively than traditional methods that leave large voids. Additionally, mining with stowing can assist in controlling water flow within the mines, decreasing the risk of flooding and improving overall operational efficiency.Despite its advantages, mining with stowing is not without challenges. The selection of appropriate stowing materials is critical, as they must be stable and compatible with the geological conditions of the mine. Moreover, the logistics of transporting and placing these materials can be complex, requiring careful planning and execution. Miners must also consider the long-term effects of stowing on ground stability and potential impacts on future mining operations.In conclusion, mining with stowing is an innovative and effective mining technique that enhances safety, supports environmental sustainability, and offers economic benefits. As the mining industry continues to evolve, adopting practices like mining with stowing will be essential for meeting the growing demand for resources while minimizing the ecological footprint of mining operations. By understanding and implementing this method, we can ensure that mining remains a viable and responsible industry for generations to come.

采矿是一个至关重要的行业，为我们的日常生活提供了必需的资源，从用于电子产品的金属到为我们家庭供电的煤炭。在各种采矿技术中，采矿与填充在地下作业中发挥着重要作用。这种方法涉及用废料或填充材料填充已开采的区域，以防止坍塌并确保矿工的安全。采矿与填充的做法不仅增强了矿井结构的稳定性，还通过减少表面废物来促进环境可持续性。采矿与填充的过程通常在提取了一段矿石后开始。矿工不会留下空洞，这可能导致沉降和其他地质危害，而是用岩石、尾矿或在采矿过程中产生的其他废料填充这些空间。这种技术在软岩开采中尤为有利，因为其坍塌的风险更高。通过实施采矿与填充，采矿公司可以保持周围岩石的完整性，最小化事故的潜在风险。此外，采矿与填充不仅涉及安全问题；它还具有经济意义。通过重复利用废弃材料，采矿作业可以降低与废物处理相关的成本。这一做法与循环经济的原则相一致，资源尽可能长时间地被利用。在土地稀缺的地区，采矿与填充允许更有效地利用空间，因为它减轻了对地表大型尾矿池的需求。环境问题日益影响采矿实践，而采矿与填充直接解决了一些这些问题。通过填充已开采的区域，该方法有助于限制采矿活动对景观的影响。它减少了采矿作业的视觉足迹，并且可以比传统方法更有效地帮助恢复生态系统，这些传统方法留下了大空洞。此外，采矿与填充可以帮助控制矿井内的水流，减少洪水风险，提高整体运营效率。尽管有其优势，采矿与填充也并非没有挑战。选择合适的填充材料至关重要，因为它们必须稳定且与矿井的地质条件兼容。此外，运输和放置这些材料的后勤工作可能很复杂，需要仔细规划和执行。矿工还必须考虑填充对地面稳定性的长期影响以及对未来采矿作业的潜在影响。总之，采矿与填充是一种创新且有效的采矿技术，增强了安全性，支持环境可持续性，并提供经济效益。随着采矿行业的不断发展，采用像采矿与填充这样的做法对于满足对资源日益增长的需求，同时最小化采矿作业的生态足迹，将是至关重要的。通过理解和实施这一方法，我们可以确保采矿在未来几代人中仍然是一个可行和负责任的行业。