reverberatory furnace

简明释义

反射加热炉

英英释义

例句

1.The reverberatory furnace (反射炉) allows for continuous operation, making it ideal for large-scale production.

reverberatory furnace (反射炉) 允许连续操作，非常适合大规模生产。

2.In the steel industry, a reverberatory furnace (反射炉) is often used for smelting iron ore.

在钢铁行业，reverberatory furnace (反射炉) 通常用于冶炼铁矿石。

3.The efficiency of the reverberatory furnace (反射炉) can greatly affect production costs.

reverberatory furnace (反射炉) 的效率会大大影响生产成本。

4.The metal was melted in a reverberatory furnace (反射炉) to achieve the desired purity.

金属在reverberatory furnace (反射炉) 中熔化，以达到所需的纯度。

5.Operators must monitor the temperature inside the reverberatory furnace (反射炉) closely.

操作员必须密切监控reverberatory furnace (反射炉) 内部的温度。

作文

The industrial revolution brought about significant advancements in metallurgy, one of which was the development of the reverberatory furnace. This type of furnace is a crucial component in the process of smelting metals, particularly copper and lead. The reverberatory furnace operates on the principle of indirect heating. Unlike other furnaces that rely on direct contact with the fuel, the reverberatory furnace uses radiant heat from the combustion of fuel to melt the metal charge placed inside it. This design allows for a more efficient and controlled melting process, making it an essential tool in metallurgical operations.The structure of a reverberatory furnace typically includes a large chamber where the metal is placed and a separate area for combustion. The flames produced by burning fuel such as coal or natural gas are directed over the surface of the metal charge. This method not only ensures even heating but also minimizes the contamination of the molten metal by impurities from the fuel. As a result, the reverberatory furnace has become a preferred choice for many metallurgical processes.Historically, the reverberatory furnace played a pivotal role in the production of high-quality metals during the 19th century. It allowed for the large-scale production of metals that were essential for various industries, including construction, transportation, and manufacturing. The ability to produce metal in bulk at a lower cost made it possible for industries to thrive and expand, leading to economic growth.In addition to its historical significance, the reverberatory furnace continues to be relevant in modern metallurgy. While newer technologies have emerged, such as electric arc furnaces and induction furnaces, the reverberatory furnace remains in use due to its unique advantages. For instance, it can handle a wide variety of metal ores and is capable of producing large quantities of molten metal in a single batch. This versatility makes it an enduring choice for many foundries and smelting operations around the world.Moreover, the reverberatory furnace is also valued for its ability to recover valuable metals from scrap materials. The recycling of metals has become increasingly important in today's economy, and the reverberatory furnace provides an effective means of processing scrap to extract pure metals. This not only conserves natural resources but also reduces energy consumption compared to primary metal production.In conclusion, the reverberatory furnace is a remarkable invention that has stood the test of time. Its role in the advancement of metallurgy cannot be overstated. From its historical contributions to modern applications, the reverberatory furnace has proven to be an indispensable asset in the metalworking industry. Understanding its operation and significance is crucial for anyone interested in metallurgy and industrial processes. As we continue to innovate and improve upon existing technologies, the reverberatory furnace will undoubtedly remain a key player in the field of metal production, showcasing the importance of traditional methods in a rapidly evolving industry.

工业革命带来了冶金领域的重大进展，其中之一就是开发了反射炉。这种类型的炉子是冶炼金属过程中的关键组成部分，特别是铜和铅。反射炉的工作原理是间接加热。与其他依赖直接与燃料接触的炉子不同，反射炉利用燃料燃烧产生的辐射热来熔化放置在内部的金属料。这种设计使得熔化过程更加高效和可控，使其成为冶金操作中的重要工具。反射炉的结构通常包括一个大型室，金属放置在其中，还有一个单独的燃烧区域。燃烧煤或天然气等燃料产生的火焰被引导到金属料的表面。这种方法不仅确保了均匀加热，还最小化了熔融金属因燃料杂质而受到的污染。因此，反射炉已经成为许多冶金过程的首选。历史上，反射炉在19世纪高质量金属生产中发挥了关键作用。它使大规模生产对建筑、运输和制造等各个行业至关重要的金属成为可能。以较低的成本批量生产金属的能力使得各行业能够蓬勃发展，从而推动经济增长。除了历史重要性外，反射炉在现代冶金中仍然具有相关性。虽然出现了电弧炉和感应炉等新技术，但由于其独特的优势，反射炉仍在使用。例如，它可以处理各种金属矿石，并且能够在单个批次中生产大量熔融金属。这种多功能性使其在世界各地的铸造厂和冶炼操作中成为持久的选择。此外，反射炉还因其从废料中回收有价值金属的能力而受到重视。金属回收在当今经济中变得越来越重要，而反射炉提供了一种有效的处理废料以提取纯金属的方法。这不仅节约了自然资源，还减少了与初级金属生产相比的能耗。总之，反射炉是一项经受住时间考验的杰出发明。它在冶金进步中的作用不可低估。从历史贡献到现代应用，反射炉已被证明是金属加工行业不可或缺的资产。理解其操作和重要性对于任何对冶金和工业过程感兴趣的人来说都是至关重要的。随着我们继续创新和改进现有技术，反射炉无疑将继续在金属生产领域中扮演关键角色，展示传统方法在快速发展的行业中的重要性。