mining geodesy

简明释义

矿山测量学

英英释义

例句

1.The research team utilized mining geodesy to assess land stability before drilling.

研究团队利用矿业大地测量评估钻探前土地的稳定性。

2.The company specializes in mining geodesy, which helps them accurately map mineral deposits.

该公司专注于矿业大地测量，这帮助他们准确绘制矿藏分布图。

3.Training in mining geodesy is essential for professionals in the mining industry.

在矿业大地测量方面的培训对矿业专业人士至关重要。

4.The integration of mining geodesy with modern technology has revolutionized resource extraction.

将矿业大地测量与现代技术结合起来，彻底改变了资源开采方式。

5.Using mining geodesy, engineers can determine the best locations for new mines.

通过使用矿业大地测量，工程师可以确定新矿场的最佳位置。

作文

In the modern world, the intersection of technology and natural resource extraction has led to the emergence of various specialized fields. One such field is mining geodesy, which plays a crucial role in enhancing the efficiency and safety of mining operations. Mining geodesy refers to the application of geodetic principles and techniques to the mining industry, focusing on the precise measurement and mapping of land, as well as monitoring changes in the earth's surface due to mining activities. This discipline combines elements of geography, engineering, and environmental science, making it essential for sustainable mining practices.The importance of mining geodesy cannot be overstated. As mining operations expand, the need for accurate data regarding the topography and geological features of mining sites becomes increasingly critical. By employing advanced technologies such as GPS (Global Positioning System) and GIS (Geographic Information Systems), professionals in mining geodesy can create detailed maps that aid in the planning and execution of mining projects. These maps provide valuable information about mineral deposits, terrain stability, and potential environmental impacts, allowing mining companies to make informed decisions.Moreover, mining geodesy is vital for ensuring compliance with regulatory standards. Governments around the world impose strict regulations on mining activities to protect the environment and local communities. By utilizing geodetic methods, mining companies can demonstrate their commitment to responsible mining practices. For instance, they can monitor land deformation caused by mining operations and take corrective actions when necessary. This proactive approach helps minimize the negative impact of mining on the surrounding ecosystem.Another significant aspect of mining geodesy is its contribution to safety in mining operations. The mining industry is inherently hazardous, with risks including ground collapse, equipment failure, and adverse weather conditions. Through precise geodetic measurements, mining engineers can assess the stability of mine structures and identify potential hazards before they become critical. This predictive capability not only protects the lives of workers but also reduces the likelihood of costly accidents.Furthermore, mining geodesy supports the reclamation of mined land. After mining activities cease, it is essential to restore the land to its natural state or repurpose it for other uses. Geodetic surveys help determine the extent of land degradation and guide the rehabilitation process. By accurately measuring changes in landform and vegetation, experts can develop effective strategies for restoring ecosystems affected by mining.In conclusion, mining geodesy is an essential discipline within the mining industry that integrates technology and scientific principles to enhance operational efficiency, ensure safety, and promote environmental stewardship. As the demand for minerals continues to rise, the role of mining geodesy will become even more critical in addressing the challenges associated with resource extraction. By leveraging advanced geodetic techniques, the mining industry can work towards a more sustainable future, balancing economic growth with environmental protection and community welfare.

在现代世界中，技术与自然资源开采的交汇催生了各种专业领域。其中一个领域是矿业测地学，它在提高矿业运营的效率和安全性方面发挥着至关重要的作用。矿业测地学是指将测地原理和技术应用于矿业，重点关注土地的精确测量和制图，以及监测由于采矿活动导致的地球表面变化。这一学科结合了地理、工程和环境科学的元素，使其对可持续采矿实践至关重要。矿业测地学的重要性不容小觑。随着采矿作业的扩展，对有关采矿地点地形和地质特征的准确数据的需求变得越来越重要。通过采用GPS（全球定位系统）和GIS（地理信息系统）等先进技术，矿业测地学专业人员可以创建详细的地图，帮助规划和执行采矿项目。这些地图提供有关矿藏、地形稳定性和潜在环境影响的宝贵信息，使矿业公司能够做出明智的决策。此外，矿业测地学对于确保遵守监管标准至关重要。世界各国政府对采矿活动施加严格的规定，以保护环境和当地社区。通过利用测地方法，矿业公司可以证明其对负责任的采矿实践的承诺。例如，他们可以监测采矿活动造成的土地变形，并在必要时采取纠正措施。这种主动的方法有助于最小化采矿对周围生态系统的负面影响。矿业测地学的另一个重要方面是它对采矿操作安全性的贡献。采矿行业本质上是危险的，风险包括地面崩塌、设备故障和恶劣天气条件。通过精确的测地测量，矿业工程师可以评估矿井结构的稳定性，并在潜在危险成为关键之前识别它们。这种预测能力不仅保护了工人的生命，而且减少了事故发生的可能性，从而降低了成本。此外，矿业测地学支持被采矿土地的复垦。在采矿活动结束后，恢复土地到自然状态或重新利用是至关重要的。测地调查有助于确定土地退化的程度并指导恢复过程。通过准确测量地形和植被的变化，专家可以制定有效的策略来恢复受采矿影响的生态系统。总之，矿业测地学是矿业行业中的一个重要学科，它整合了技术和科学原理，以提高运营效率，确保安全并促进环境保护。随着对矿物需求的不断上升，矿业测地学在应对资源开采相关挑战中的作用将变得更加重要。通过利用先进的测地技术，矿业行业可以朝着更可持续的未来迈进，在经济增长与环境保护和社区福利之间取得平衡。