pulverized anthracite

简明释义

无烟煤粉

英英释义

例句

1.For the water filtration system, pulverized anthracite serves as an effective filtration medium.

在水过滤系统中，粉状无烟煤作为有效的过滤介质。

2.The cement industry sometimes incorporates pulverized anthracite into its production processes.

水泥行业有时将粉状无烟煤纳入其生产过程。

3.In metallurgy, pulverized anthracite is often used as a fuel source.

在冶金中，粉状无烟煤常用作燃料来源。

4.The researchers studied the combustion characteristics of pulverized anthracite for cleaner energy production.

研究人员研究了粉状无烟煤的燃烧特性，以实现更清洁的能源生产。

5.The power plant uses pulverized anthracite to generate electricity efficiently.

电厂使用粉状无烟煤高效发电。

作文

In the realm of energy production and industrial applications, various materials play crucial roles in enhancing efficiency and reducing environmental impact. One such material that has garnered attention is pulverized anthracite (粉碎的无烟煤). This form of coal, characterized by its high carbon content and low impurities, has been utilized in numerous applications, particularly in power generation and metallurgical processes. The process of pulverization involves grinding the anthracite into a fine powder, which increases its surface area and allows for better combustion efficiency. When pulverized anthracite (粉碎的无烟煤) is burned, it produces a high heat output while emitting fewer pollutants compared to other fossil fuels. This makes it an attractive option for power plants looking to reduce their carbon footprint.The use of pulverized anthracite (粉碎的无烟煤) in thermal power plants is particularly noteworthy. In these facilities, coal is often pulverized to a fine dust before being injected into the boiler. This method not only improves the combustion process but also enhances the overall thermal efficiency of the plant. By utilizing pulverized anthracite (粉碎的无烟煤), power plants can achieve higher energy outputs with lower emissions, aligning with global efforts to transition towards cleaner energy sources.Moreover, pulverized anthracite (粉碎的无烟煤) is not limited to energy production; it also finds applications in the metallurgical industry, especially in the production of iron and steel. The high carbon content of anthracite makes it an excellent reducing agent in blast furnaces. When used in this context, pulverized anthracite (粉碎的无烟煤) helps to facilitate the chemical reactions necessary for extracting iron from its ore, ultimately contributing to the production of steel. This dual functionality highlights the versatility of pulverized anthracite (粉碎的无烟煤) as a valuable resource in both energy and manufacturing sectors.However, the extraction and processing of anthracite raise significant environmental concerns. Mining operations can lead to habitat destruction, soil erosion, and water pollution if not managed responsibly. Therefore, it is essential for industries using pulverized anthracite (粉碎的无烟煤) to adopt sustainable practices that minimize their ecological footprint. Implementing advanced technologies for cleaner mining and processing, alongside effective waste management strategies, can help mitigate these impacts.In conclusion, pulverized anthracite (粉碎的无烟煤) stands out as a powerful material in the quest for efficient energy production and sustainable industrial practices. Its ability to provide high energy outputs with reduced emissions makes it a favorable choice for power generation, while its role in metallurgy underscores its importance in the manufacturing sector. As industries continue to seek ways to balance economic growth with environmental stewardship, the responsible use of pulverized anthracite (粉碎的无烟煤) will undoubtedly play a pivotal role in shaping a more sustainable future.

在能源生产和工业应用领域，各种材料在提高效率和减少环境影响方面发挥着至关重要的作用。其中，pulverized anthracite（粉碎的无烟煤）这一材料引起了人们的关注。这种煤炭以其高碳含量和低杂质特征而闻名，已被广泛应用于多个领域，特别是在发电和冶金过程中。粉碎过程涉及将无烟煤研磨成细粉，这样可以增加其表面积，从而提高燃烧效率。当pulverized anthracite（粉碎的无烟煤）被燃烧时，其产生的热量输出高，同时相比其他化石燃料排放更少的污染物。这使得它成为发电厂在努力减少碳足迹时的一个有吸引力的选择。在热电厂中使用pulverized anthracite（粉碎的无烟煤）尤为显著。在这些设施中，煤通常在注入锅炉之前被粉碎成细粉。这种方法不仅改善了燃烧过程，还提高了发电厂的整体热效率。通过利用pulverized anthracite（粉碎的无烟煤），发电厂可以以更低的排放实现更高的能量输出，这与全球向更清洁能源转型的努力相一致。此外，pulverized anthracite（粉碎的无烟煤）并不限于能源生产；它在冶金行业中也找到了应用，尤其是在铁和钢的生产中。无烟煤的高碳含量使其成为高炉中优良的还原剂。在这种情况下使用pulverized anthracite（粉碎的无烟煤）有助于促进从矿石中提取铁所需的化学反应，最终促成钢的生产。这种双重功能突显了pulverized anthracite（粉碎的无烟煤）作为能源和制造部门宝贵资源的多样性。然而，提取和加工无烟煤会引发重大环境问题。如果不加以管理，采矿作业可能导致栖息地破坏、土壤侵蚀和水污染。因此，使用pulverized anthracite（粉碎的无烟煤）的行业必须采取可持续的做法，以最小化其生态足迹。实施先进的清洁采矿和加工技术，以及有效的废物管理策略，可以帮助减轻这些影响。总之，pulverized anthracite（粉碎的无烟煤）作为一种强大的材料，在追求高效能源生产和可持续工业实践的过程中脱颖而出。它以较低的排放提供高能量输出的能力，使其成为发电的理想选择，而其在冶金中的作用则强调了其在制造业中的重要性。随着各行业继续寻求在经济增长与环境保护之间取得平衡，负责任地使用pulverized anthracite（粉碎的无烟煤）无疑将在塑造更可持续的未来中发挥关键作用。