temperature of the initial combustion

简明释义

初燃温度

英英释义

例句

1.The engineer measured the temperature of the initial combustion to ensure optimal engine performance.

工程师测量了初始燃烧的温度以确保发动机的最佳性能。

2.Adjusting the air-fuel ratio can significantly affect the temperature of the initial combustion.

调整空气与燃料的比例可以显著影响初始燃烧的温度。

3.A higher temperature of the initial combustion can lead to more efficient fuel usage.

更高的初始燃烧的温度可以导致更高效的燃料使用。

4.The scientist conducted experiments to analyze the temperature of the initial combustion during the reaction.

科学家进行了实验，以分析反应过程中初始燃烧的温度。

5.Monitoring the temperature of the initial combustion is crucial for safety in industrial furnaces.

监测初始燃烧的温度对于工业炉的安全至关重要。

作文

The study of combustion is a vital aspect of both engineering and environmental science. One of the critical parameters in understanding combustion processes is the temperature of the initial combustion, which refers to the temperature at which a fuel begins to ignite and sustain a reaction with oxygen. This temperature plays a crucial role in determining the efficiency and emissions of combustion systems. For instance, in engines, the temperature of the initial combustion can affect the overall performance and fuel economy, as well as the production of pollutants such as nitrogen oxides (NOx). In various applications, including internal combustion engines, power generation, and industrial furnaces, knowing the temperature of the initial combustion allows engineers to optimize their designs. Higher temperatures generally lead to more complete combustion, which can enhance energy output and minimize unburned hydrocarbons. However, if the temperature of the initial combustion exceeds certain thresholds, it can lead to increased formation of harmful emissions, requiring additional technology to control these byproducts. Moreover, the temperature of the initial combustion is influenced by several factors including the type of fuel used, the air-fuel ratio, and the presence of additives. Different fuels have distinct ignition characteristics; for example, diesel fuel has a higher temperature of the initial combustion compared to gasoline. This difference is important in terms of engine design and operation, as diesel engines rely on compression ignition, which requires reaching higher temperatures than those typically found in gasoline engines. Research into alternative fuels also highlights the significance of the temperature of the initial combustion. As the world shifts towards more sustainable energy sources, understanding how different biofuels or synthetic fuels ignite can lead to more efficient combustion systems. For example, biofuels often have lower temperatures of the initial combustion compared to traditional fossil fuels, which can impact their performance in existing engines. In summary, the temperature of the initial combustion is a fundamental concept that influences various aspects of combustion technology. It affects not only the efficiency and performance of engines but also the environmental impact of combustion processes. By optimizing this parameter, engineers can design systems that are not only more efficient but also cleaner, contributing to efforts aimed at reducing pollution and enhancing energy sustainability. Understanding and controlling the temperature of the initial combustion is thus essential for advancing both current technologies and future innovations in combustion science.

燃烧研究是工程学和环境科学中的一个重要方面。理解燃烧过程中的一个关键参数是初始燃烧温度，即燃料开始点燃并与氧气持续反应的温度。这个温度在决定燃烧系统的效率和排放方面起着至关重要的作用。例如，在发动机中，初始燃烧温度可以影响整体性能和燃油经济性，以及污染物如氮氧化物（NOx）的产生。在包括内燃机、发电和工业炉在内的各种应用中，了解初始燃烧温度使工程师能够优化设计。较高的温度通常会导致更完全的燃烧，这可以增强能量输出并最小化未燃烧的烃。然而，如果初始燃烧温度超过某些阈值，可能会导致有害排放的增加，需要额外的技术来控制这些副产品。此外，初始燃烧温度受多种因素的影响，包括所用燃料的类型、空气-燃料比和添加剂的存在。不同燃料具有不同的点火特性；例如，柴油燃料的初始燃烧温度高于汽油。这种差异在发动机设计和操作中是重要的，因为柴油发动机依赖于压缩点火，这需要达到比汽油发动机通常所需的更高温度。对替代燃料的研究也突显了初始燃烧温度的重要性。随着世界向更可持续的能源来源转变，了解不同生物燃料或合成燃料的点火方式可以导致更高效的燃烧系统。例如，生物燃料的初始燃烧温度通常低于传统化石燃料，这可能影响它们在现有发动机中的性能。总之，初始燃烧温度是影响燃烧技术各个方面的基本概念。它不仅影响发动机的效率和性能，还影响燃烧过程的环境影响。通过优化这一参数，工程师可以设计出不仅更高效而且更清洁的系统，为减少污染和提高能源可持续性的努力做出贡献。因此，理解和控制初始燃烧温度对于推动当前技术和未来燃烧科学的创新至关重要。