furnace clinker

简明释义

炉渣结块

英英释义

例句

1.The plant's efficiency improved after optimizing the handling of furnace clinker.

在优化炉渣处理后，工厂的效率得到了提升。

2.Engineers studied the chemical composition of furnace clinker to enhance its reuse.

工程师研究了炉渣的化学成分，以增强其再利用性。

3.Proper disposal of furnace clinker is essential to minimize environmental impact.

妥善处理炉渣对减少环境影响至关重要。

4.The construction team used furnace clinker as an aggregate in their concrete mix.

施工队将炉渣作为混凝土配料中的骨料使用。

5.After the smelting process, the remaining furnace clinker was collected for recycling.

熔炼过程后，剩余的炉渣被收集用于回收。

作文

The industrial world is filled with various processes that transform raw materials into finished products. One such process is the operation of furnaces, which are essential in many manufacturing industries. A key byproduct of these high-temperature operations is known as furnace clinker, or in Chinese, 炉渣. This term refers to the solid residue that forms when certain materials, particularly coal or other fuels, are burned in a furnace. Understanding the formation and properties of furnace clinker is crucial for industries that rely on furnace operations, as it can significantly impact efficiency and product quality.Furnaces operate at extremely high temperatures, often exceeding 1,000 degrees Celsius. During this process, the combustion of fuel generates heat, which is then used to melt metals or produce other materials. However, not all of the fuel completely combusts; some of it leaves behind a solid residue. This residue is what we refer to as furnace clinker. The composition of furnace clinker can vary depending on the type of fuel used and the materials being processed. Typically, it consists of a mixture of minerals, oxides, and unburned carbon.The presence of furnace clinker in a furnace can have several implications. Firstly, it can affect the overall efficiency of the furnace. If too much furnace clinker accumulates, it can obstruct airflow, leading to uneven heating and potentially damaging the furnace itself. This can result in increased operational costs due to the need for more frequent maintenance and repairs. Therefore, managing furnace clinker production is essential for maintaining optimal furnace performance.Moreover, furnace clinker can also impact the quality of the final product. In metal production, for example, excessive clinker can lead to impurities in the molten metal, adversely affecting its properties. Manufacturers must therefore implement strategies to minimize furnace clinker formation or effectively remove it during the production process. This could involve adjusting the fuel-to-air ratio, optimizing temperature levels, or using additives that help reduce clinker formation.In addition to its challenges, furnace clinker can also be repurposed in various ways. Some industries have found innovative uses for this byproduct, turning it into valuable materials. For instance, crushed furnace clinker can be utilized as an aggregate in construction projects, providing a sustainable alternative to traditional materials. This not only helps reduce waste but also contributes to more environmentally friendly practices within the industry.In conclusion, understanding furnace clinker and its implications is vital for industries that rely on furnace operations. It plays a significant role in determining both the efficiency of the furnace and the quality of the products produced. By managing furnace clinker effectively, manufacturers can enhance their operational performance while also exploring opportunities for recycling and repurposing this byproduct. As industries continue to evolve and seek more sustainable practices, the management of furnace clinker will remain an important area of focus.

工业世界充满了各种将原材料转化为成品的过程。其中一个过程是炉子的操作，许多制造行业都依赖于它。这些高温操作的一个关键副产品被称为炉渣。这个术语指的是当某些材料，特别是煤或其他燃料，在炉中燃烧时形成的固体残留物。理解炉渣的形成和性质对于依赖炉子操作的行业至关重要，因为它会显著影响效率和产品质量。炉子在极高的温度下运行，通常超过1000摄氏度。在这个过程中，燃料的燃烧产生热量，然后用于熔化金属或生产其他材料。然而，并不是所有的燃料都完全燃烧；一部分燃料留下了固体残留物。这种残留物就是我们所称的炉渣。炉渣的组成可以根据使用的燃料类型和加工的材料而有所不同。通常，它由矿物、氧化物和未燃烧的碳的混合物组成。炉渣在炉子中的存在可能会有几种影响。首先，它可以影响炉子的整体效率。如果过多的炉渣积累，它可能会阻碍气流，导致加热不均匀，甚至可能损坏炉子本身。这可能会导致运营成本增加，因为需要更频繁的维护和修理。因此，管理炉渣的产生对于保持最佳炉子性能至关重要。此外，炉渣还可以影响最终产品的质量。例如，在金属生产中，过量的炉渣可能会导致熔融金属中的杂质，从而对其性质产生不利影响。因此，制造商必须实施策略，以最小化炉渣的形成或有效去除它。这可能涉及调整燃料与空气的比例、优化温度水平或使用帮助减少渣形成的添加剂。除了挑战之外，炉渣也可以以各种方式重新利用。一些行业已经找到创新的方法来利用这种副产品，将其转化为有价值的材料。例如，碎炉渣可以用作建筑项目中的骨料，提供可持续的传统材料替代品。这不仅有助于减少废物，还促进了行业内更环保的实践。总之，理解炉渣及其影响对于依赖炉子操作的行业至关重要。它在决定炉子的效率和生产产品的质量方面发挥着重要作用。通过有效管理炉渣，制造商可以提高其运营性能，同时探索回收和再利用这一副产品的机会。随着行业的不断发展和寻求更可持续的实践，炉渣的管理将仍然是一个重要的关注领域。