ore extraction

简明释义

采矿

英英释义

例句

1.The ore extraction 矿石提取 operation will start next month.

该矿石提取作业将于下个月开始。

2.New methods of ore extraction 矿石提取 can help reduce costs.

新型的矿石提取方法可以帮助降低成本。

3.Environmental regulations are becoming stricter for ore extraction 矿石提取 processes.

环境法规对矿石提取过程变得越来越严格。

4.The company has invested heavily in ore extraction 矿石提取 technologies to improve efficiency.

该公司在矿石提取技术上进行了大量投资，以提高效率。

5.They conducted a study on the impact of ore extraction 矿石提取 on local wildlife.

他们对矿石提取对当地野生动物的影响进行了研究。

作文

The process of ore extraction is a crucial aspect of the mining industry. It involves the removal of valuable minerals or metals from the earth, which are essential for various industries and everyday products. The techniques used in ore extraction can vary significantly depending on the type of ore being mined and the geographical location of the mining site. For instance, surface mining is often employed for minerals that are located close to the earth’s surface, while underground mining is used for deeper deposits.One of the most common forms of ore extraction is open-pit mining. This method involves digging a large pit in the ground to access the ore deposits. Open-pit mining is particularly effective for extracting large quantities of ore efficiently. However, it can have significant environmental impacts, including habitat destruction and soil erosion. Therefore, it is essential to implement sustainable practices during the ore extraction process to minimize these effects.Another method of ore extraction is underground mining, which is used when the ore is too deep to be extracted by surface methods. This technique involves creating tunnels or shafts to reach the ore. While underground mining can be less damaging to the surface environment, it poses risks to the miners due to potential cave-ins and exposure to harmful gases. Safety measures are critical in ensuring the well-being of workers involved in ore extraction.The economic significance of ore extraction cannot be overstated. Minerals extracted from the earth are used in a wide range of applications, from construction materials to electronics. For example, copper, gold, and iron ore are vital for manufacturing electrical wiring, jewelry, and steel products, respectively. As global demand for these materials continues to rise, the efficiency of ore extraction processes becomes increasingly important to meet the needs of various sectors.Moreover, advancements in technology have greatly improved the methods of ore extraction. Innovations such as automated drilling systems and advanced geological mapping techniques have made it possible to locate and extract ore more effectively. These technological improvements not only enhance productivity but also help reduce the environmental footprint of mining operations.However, the challenges associated with ore extraction are manifold. Environmental regulations are becoming stricter, requiring mining companies to adopt more sustainable practices. Additionally, the depletion of easily accessible ore deposits means that companies must invest in more complex and potentially harmful extraction methods. This situation creates a pressing need for research into alternative materials and recycling processes to reduce reliance on newly extracted ores.In conclusion, ore extraction plays a pivotal role in supplying the raw materials necessary for modern society. While it presents numerous challenges, particularly concerning environmental sustainability and worker safety, ongoing advancements in technology and increased awareness of ecological impacts hold promise for the future of the mining industry. By balancing economic needs with environmental stewardship, we can ensure that ore extraction remains a viable practice for generations to come.

矿石提取的过程是采矿业的一个关键方面。它涉及从地球中去除有价值的矿物或金属，这些矿物或金属对各个行业和日常产品至关重要。用于矿石提取的技术可能因所开采矿石的类型和采矿地点的地理位置而有所不同。例如，表面采矿通常用于位于地表附近的矿物，而地下采矿则用于更深的矿床。矿石提取中最常见的形式之一是露天采矿。这种方法涉及在地下挖掘一个大坑以获取矿石。露天采矿特别有效，可以高效地提取大量矿石。然而，它可能对环境产生重大影响，包括栖息地破坏和土壤侵蚀。因此，在矿石提取过程中实施可持续实践以最小化这些影响至关重要。矿石提取的另一种方法是地下采矿，当矿石太深而无法通过表面方法提取时使用。这种技术涉及创建隧道或竖井以到达矿石。虽然地下采矿对地表环境的损害较小，但由于可能发生塌方和暴露于有害气体，工人面临风险。确保参与矿石提取工人的安全措施至关重要。矿石提取的经济重要性不容小觑。从地球中提取的矿物用于各种应用，从建筑材料到电子产品。例如，铜、黄金和铁矿石对于制造电线、珠宝和钢铁产品至关重要。随着全球对这些材料的需求不断上升，矿石提取过程的效率变得越来越重要，以满足各个行业的需求。此外，技术的进步大大改善了矿石提取的方法。自动钻孔系统和先进的地质勘探技术等创新使得更有效地定位和提取矿石成为可能。这些技术的改进不仅提高了生产力，还有助于减少采矿作业的环境足迹。然而，矿石提取所面临的挑战是多方面的。环境法规日益严格，要求采矿公司采用更可持续的做法。此外，易于获取的矿石储量的枯竭意味着公司必须投资于更复杂且潜在有害的提取方法。这种情况迫切需要研究替代材料和回收过程，以减少对新提取矿石的依赖。总之，矿石提取在为现代社会提供必要的原材料方面发挥着关键作用。尽管它带来了许多挑战，尤其是在环境可持续性和工人安全方面，但技术的不断进步和对生态影响的日益关注为采矿业的未来带来了希望。通过平衡经济需求与环境管理，我们可以确保矿石提取在未来几代人中仍然是一项可行的实践。