low temperature coke

简明释义

低温焦炭

英英释义

例句

1.Using low temperature coke in steelmaking can reduce the amount of sulfur in the final product.

在钢铁制造中使用低温焦可以减少最终产品中的硫含量。

2.Many industries are shifting towards low temperature coke to meet stricter environmental regulations.

许多行业正在转向低温焦，以满足更严格的环境法规。

3.The production process of low temperature coke involves heating coal at lower temperatures to produce a cleaner fuel.

低温焦的生产过程涉及在较低温度下加热煤炭，以产生更清洁的燃料。

4.The environmental benefits of low temperature coke include lower emissions compared to traditional coke.

低温焦的环境效益包括与传统焦炭相比，排放更低。

5.In our laboratory experiments, we found that low temperature coke has a higher reactivity than regular coke.

在我们的实验室实验中，我们发现低温焦的反应性高于普通焦炭。

作文

In the realm of industrial chemistry, the term low temperature coke refers to a type of carbonaceous material that is produced through the pyrolysis of coal at lower temperatures compared to traditional coking processes. This method is particularly significant in the production of metallurgical cokes, which are essential for iron and steel manufacturing. The process of making low temperature coke involves heating coal in an oxygen-deficient environment, which allows for the thermal decomposition of organic materials without complete combustion.One of the primary advantages of using low temperature coke is its ability to retain more volatile matter compared to high-temperature cokes. This characteristic can enhance its reactivity and improve its performance in various applications. For instance, low temperature coke can be used as a reducing agent in metallurgical processes, where it serves to facilitate the reduction of metal oxides to their corresponding metals. Moreover, the lower temperatures involved in its production result in a reduced formation of harmful byproducts, making it a more environmentally friendly option.The production of low temperature coke also plays a crucial role in energy efficiency. By utilizing lower temperatures, industries can save on energy costs associated with heating. This not only benefits the bottom line but also contributes to sustainability efforts by minimizing energy consumption and reducing greenhouse gas emissions.Furthermore, the properties of low temperature coke can be tailored to meet specific industrial needs. For example, by adjusting the pyrolysis conditions, manufacturers can produce cokes with varying levels of porosity and surface area, which can be advantageous for different applications, such as chemical synthesis or as a catalyst support.Despite its benefits, the use of low temperature coke is not without challenges. The market demand for traditional high-temperature cokes still dominates in many regions, primarily due to established practices and infrastructure. Additionally, the quality control of low temperature coke production requires careful monitoring to ensure consistency and reliability in its properties. As a result, ongoing research and development are vital to overcome these obstacles and promote the adoption of low temperature coke in various industries.In conclusion, low temperature coke represents a significant advancement in the field of carbon materials. Its unique properties, coupled with the environmental and economic benefits it offers, make it an attractive alternative to traditional coking methods. As industries continue to seek more sustainable and efficient solutions, the role of low temperature coke is likely to expand, paving the way for innovative applications in metallurgy and beyond.

在工业化学领域，短语低温焦炭指的是一种通过在较低温度下对煤进行热解而生产的碳质材料，与传统的炼焦工艺相比，这种方法尤为重要于冶金焦的生产，冶金焦是铁和钢制造所必需的。生产低温焦炭的过程涉及在缺氧环境中加热煤，这使得有机材料的热分解得以进行，而不会完全燃烧。使用低温焦炭的主要优点之一是它能够保留比高温焦炭更多的挥发性物质。这一特性可以增强其反应性，并改善其在各种应用中的性能。例如，低温焦炭可以作为冶金过程中的还原剂，用于促进金属氧化物还原为相应的金属。此外，生产过程中较低的温度导致有害副产品的形成减少，使其成为更环保的选择。低温焦炭的生产在能源效率方面也发挥着至关重要的作用。通过利用较低的温度，行业可以节省与加热相关的能源成本。这不仅有利于企业的利润，还通过减少能源消耗和减少温室气体排放，为可持续发展做出了贡献。此外，低温焦炭的性质可以根据特定的工业需求进行调整。例如，通过调整热解条件，制造商可以生产具有不同孔隙率和表面积的焦炭，这对于化学合成或作为催化剂载体等不同应用而言可能是有利的。尽管有其优点，使用低温焦炭并非没有挑战。传统高温焦炭的市场需求在许多地区仍占主导地位，主要是由于既定的实践和基础设施。此外，低温焦炭生产的质量控制需要仔细监测，以确保其性质的一致性和可靠性。因此，持续的研究和开发对于克服这些障碍和促进低温焦炭在各个行业中的采用至关重要。总之，低温焦炭代表了碳材料领域的重要进展。其独特的属性，加上其所提供的环境和经济效益，使其成为传统炼焦方法的有吸引力的替代品。随着各行业继续寻求更可持续和高效的解决方案，低温焦炭的角色很可能会扩大，为冶金及其他领域的创新应用铺平道路。