coal hydraulicking

简明释义

水力采煤

英英释义

例句

1.Using coal hydraulicking, miners can access deeper coal seams without extensive drilling.

通过使用煤水力采掘，矿工可以在不进行大量钻探的情况下进入更深的煤层。

2.The government is considering regulations on coal hydraulicking to ensure safety standards.

政府正在考虑对煤水力采掘进行监管，以确保安全标准。

3.Many experts believe that coal hydraulicking is a sustainable method for mining operations.

许多专家认为，煤水力采掘是一种可持续的采矿方法。

4.During the presentation, the engineer explained how coal hydraulicking can reduce environmental impact.

在演示中，工程师解释了如何通过煤水力采掘减少环境影响。

5.The mining company implemented coal hydraulicking to increase the efficiency of extracting resources.

这家矿业公司实施了煤水力采掘以提高资源开采的效率。

作文

Coal mining has evolved significantly over the years, with various techniques being developed to extract this vital resource. One of the most innovative methods is coal hydraulicking, which refers to the use of high-pressure water jets to dislodge and transport coal from its natural deposits. This technique not only increases efficiency but also minimizes the environmental impact compared to traditional mining methods. In this essay, we will explore the process of coal hydraulicking and its advantages over conventional mining practices.The process of coal hydraulicking begins with the identification of a suitable coal seam. Once the site is selected, workers set up high-pressure pumps that can generate significant water pressure. These pumps are connected to hoses that deliver water directly to the coal seam. The powerful jets of water are directed at the coal, breaking it apart and allowing it to be easily transported through pipelines to a processing facility. This method is particularly effective in areas where coal deposits are located in hard-to-reach places or when the coal is mixed with other materials.One of the primary advantages of coal hydraulicking is its efficiency. Traditional mining methods often involve drilling and blasting, which can be time-consuming and costly. In contrast, the use of high-pressure water jets allows for quicker extraction of coal, reducing operational costs and increasing productivity. Additionally, this method can be employed in various geological conditions, making it a versatile option for coal extraction.Another significant benefit of coal hydraulicking is its reduced environmental impact. Traditional mining techniques can lead to extensive land disruption, habitat destruction, and pollution. However, coal hydraulicking minimizes these effects by using water as a means of extraction, which can help preserve the surrounding ecosystem. Moreover, the process generates less dust and noise, contributing to a more sustainable mining operation.Despite its advantages, coal hydraulicking is not without its challenges. The reliance on water means that this method can be less effective in arid regions where water is scarce. Additionally, the initial setup costs for high-pressure pumps and infrastructure can be substantial, which may deter some mining companies from adopting this technology. Furthermore, there are concerns about the potential for water contamination if not managed properly, as the water used in the process can pick up minerals and pollutants from the coal seam.In conclusion, coal hydraulicking represents a significant advancement in coal mining technology. By utilizing high-pressure water jets, this method offers a more efficient and environmentally friendly alternative to traditional mining practices. While there are challenges to overcome, the benefits of coal hydraulicking make it a promising option for the future of coal extraction. As the demand for coal continues, it is essential for the industry to adopt innovative techniques that balance productivity with environmental responsibility. Through continued research and development, coal hydraulicking could play a crucial role in shaping the future of sustainable mining practices.

煤矿开采在多年来发生了显著的变化，开发出各种技术来提取这一重要资源。最具创新性的方法之一是煤水力采掘，指的是使用高压水射流来松动和运输煤炭从其自然沉积物中提取。这种技术不仅提高了效率，还减少了与传统采矿方法相比对环境的影响。在本文中，我们将探讨煤水力采掘的过程及其相对于常规采矿实践的优势。煤水力采掘的过程始于选择合适的煤层。一旦选定地点，工人们就会建立能够产生显著水压的高压泵。这些泵连接到直接输送水到煤层的软管上。强大的水射流被指向煤炭，打碎它并使其能够通过管道轻松运输到加工设施。这种方法在煤炭沉积位于难以到达的地方或煤炭与其他材料混合时特别有效。煤水力采掘的主要优点之一是其效率。传统的采矿方法往往涉及钻孔和爆破，这可能耗时且成本高昂。相比之下，使用高压水射流可以更快地提取煤炭，降低运营成本并提高生产率。此外，这种方法可以在各种地质条件下使用，使其成为煤炭提取的多功能选择。煤水力采掘的另一个显著好处是其减少了环境影响。传统的采矿技术可能导致广泛的土地破坏、栖息地破坏和污染。然而，煤水力采掘通过使用水作为提取手段，最大程度地减少了这些影响，从而有助于保护周围生态系统。此外，这个过程产生的灰尘和噪音较少，促进了更可持续的采矿作业。尽管有其优点，煤水力采掘也面临着挑战。对水的依赖意味着这种方法在水资源匮乏的干旱地区可能效果不佳。此外，高压泵和基础设施的初始设置成本可能相当可观，这可能会阻止一些矿业公司采用这项技术。此外，如果管理不当，使用过程中的水污染风险也是一个问题，因为用于该过程的水可能会从煤层中带走矿物质和污染物。总之，煤水力采掘代表了煤矿开采技术的重要进步。通过利用高压水射流，这种方法为传统采矿实践提供了一种更高效和环保的替代方案。尽管有待克服的挑战，煤水力采掘的好处使其成为未来煤炭提取的有前途的选择。随着对煤炭的需求不断增加，行业必须采用平衡生产力与环境责任的创新技术。通过持续的研究和开发，煤水力采掘可能在塑造可持续采矿实践的未来中发挥关键作用。