furnace mouth

简明释义

炉膛口

英英释义

例句

1.During the maintenance, we found that the furnace mouth was clogged with debris.

在维护过程中，我们发现炉口被杂物堵塞。

2.The efficiency of the heating system largely depends on the condition of the furnace mouth.

供暖系统的效率在很大程度上取决于炉口的状况。

3.Proper insulation around the furnace mouth can prevent heat loss.

在炉口周围适当的绝缘可以防止热量流失。

4.We need to replace the worn-out parts of the furnace mouth to ensure safety.

我们需要更换磨损的炉口部件以确保安全。

5.The technician inspected the furnace mouth for any signs of wear and tear.

技术员检查了炉口是否有磨损的迹象。

作文

In the world of industrial processes, various terminologies hold significant importance. One such term is furnace mouth, which refers to the opening of a furnace where materials are introduced for heating or melting. Understanding this term is crucial for those involved in metallurgy, glassmaking, or any industry that utilizes high-temperature furnaces. The furnace mouth serves as a critical entry point for raw materials, and its design can greatly influence the efficiency of the entire process.The design of the furnace mouth is not merely a matter of convenience; it plays a vital role in ensuring optimal airflow and temperature regulation within the furnace. A well-designed furnace mouth allows for better control over the combustion process, which is essential for achieving desired chemical reactions. For example, in steel production, the materials must be heated to extremely high temperatures to facilitate the melting of iron ore. The configuration of the furnace mouth can determine how effectively heat is distributed throughout the furnace, impacting the quality of the final product.Moreover, the furnace mouth must be designed to withstand extreme conditions. High temperatures can cause wear and tear, leading to potential failures if not addressed. Therefore, materials used in constructing the furnace mouth need to be selected carefully to ensure durability and resistance to thermal shock. Engineers often conduct extensive research to develop materials that can endure these harsh environments without compromising structural integrity.In addition to its physical attributes, the furnace mouth also has operational implications. For instance, the ease of loading materials into the furnace through the furnace mouth can affect production rates. If the opening is too small or poorly positioned, it can slow down operations, leading to increased costs and decreased efficiency. Conversely, an optimally sized and located furnace mouth can enhance productivity, allowing for faster material input and improved overall workflow.Safety is another critical aspect associated with the furnace mouth. Given the high temperatures involved in furnace operations, there is a risk of accidents if proper safety measures are not implemented. The design of the furnace mouth should include features that minimize the risk of exposure to extreme heat or molten materials. This may involve installing protective barriers or using automated systems to handle materials, thereby reducing the need for human intervention near the furnace mouth.In conclusion, the term furnace mouth encapsulates more than just an opening in a furnace; it signifies a crucial component that affects the efficiency, safety, and overall success of industrial processes. As industries continue to evolve and seek greater efficiency, the design and functionality of the furnace mouth will remain a focal point for engineers and operators alike. Understanding this term and its implications can lead to better practices and innovations in various fields, ultimately contributing to advancements in technology and manufacturing processes.

在工业过程的世界中，各种术语具有重要意义。其中一个术语是炉口，它指的是炉子的开口，在这里材料被引入进行加热或熔化。理解这个术语对于参与冶金、玻璃制造或任何利用高温炉的行业的人来说至关重要。炉口作为原材料的关键入口，其设计可以极大地影响整个过程的效率。炉口的设计不仅仅是便利的问题；它在确保炉内最佳气流和温度调节方面发挥着至关重要的作用。一个设计良好的炉口可以更好地控制燃烧过程，这对于实现所需的化学反应至关重要。例如，在钢铁生产中，材料必须加热到极高的温度，以促进铁矿石的熔化。炉口的配置可以决定热量如何有效地分布在炉内，从而影响最终产品的质量。此外，炉口的设计必须能够承受极端条件。高温可能导致磨损，如果不加以处理，可能会导致潜在的故障。因此，用于构建炉口的材料需要仔细选择，以确保耐用性和抗热冲击性。工程师们通常会进行广泛的研究，以开发能够在这些恶劣环境中承受而不影响结构完整性的材料。除了物理属性外，炉口还具有操作意义。例如，通过炉口将材料装入炉中的便利性可以影响生产率。如果开口太小或位置不当，可能会减慢操作，导致成本增加和效率降低。相反，适当大小和位置的炉口可以提高生产力，允许更快的材料输入和改善整体工作流程。安全性是与炉口相关的另一个关键方面。由于炉子操作涉及高温，如果不采取适当的安全措施，存在事故风险。炉口的设计应包括减少暴露于极端热量或熔融材料风险的特征。这可能涉及安装保护屏障或使用自动化系统来处理材料，从而减少在人类干预炉口附近的需要。总之，术语炉口不仅仅是炉子上的一个开口；它象征着一个关键组件，影响工业过程的效率、安全性和整体成功。随着各行业不断发展并寻求更高的效率，炉口的设计和功能将继续成为工程师和操作员关注的焦点。理解这个术语及其影响可以导致更好的实践和各种领域的创新，最终为技术和制造过程的进步做出贡献。