primary air
简明释义
一次空气
英英释义
例句
1.The combustion process in the furnace requires a certain amount of primary air 一次空气 to ensure efficient burning.
炉中的燃烧过程需要一定量的一次空气 一次空气以确保有效燃烧。
2.The primary air 一次空气 system is crucial for maintaining stable operations in industrial furnaces.
在工业炉中,一次空气 一次空气系统对于维持稳定操作至关重要。
3.Proper control of primary air 一次空气 flow can significantly improve energy efficiency.
适当控制一次空气 一次空气流量可以显著提高能源效率。
4.In gas turbines, the primary air 一次空气 is mixed with fuel for optimal performance.
在燃气涡轮中,一次空气 一次空气与燃料混合以获得最佳性能。
5.The design of the boiler must account for the volume of primary air 一次空气 needed for combustion.
锅炉的设计必须考虑燃烧所需的一次空气 一次空气的体积。
作文
In the study of combustion processes, the term primary air (主要空气) plays a crucial role in determining the efficiency and effectiveness of fuel burning. Primary air refers to the initial air that is mixed with the fuel before it enters the combustion chamber. This mixture is essential for achieving optimal combustion conditions, as it ensures that there is enough oxygen available to react with the fuel, thus maximizing energy output while minimizing emissions.When we consider various types of combustion systems, such as those found in industrial boilers or internal combustion engines, the management of primary air becomes even more critical. For instance, in a boiler system, the amount of primary air supplied can significantly affect the combustion temperature and the formation of pollutants like nitrogen oxides (NOx) and carbon monoxide (CO). Too little primary air can lead to incomplete combustion, resulting in higher emissions and lower efficiency. Conversely, too much primary air can cool the combustion process and also increase the production of certain pollutants.To optimize the combustion process, engineers often utilize advanced control systems that monitor and adjust the flow of primary air based on real-time data from the combustion process. This not only enhances the performance of the system but also contributes to meeting regulatory standards for emissions. For example, in modern gas turbines, precise control of primary air allows for improved efficiency and reduced environmental impact.Moreover, understanding the dynamics of primary air is important when designing combustion systems. The design must take into account factors such as the type of fuel being used, the desired combustion characteristics, and the specific application of the combustion system. A well-designed system will ensure that the primary air is adequately mixed with the fuel, promoting efficient combustion and reducing the likelihood of operational issues.In conclusion, primary air (主要空气) is a fundamental component in the field of combustion engineering. Its proper management is vital for achieving high efficiency and low emissions in various combustion applications. As technology advances, the ability to precisely control primary air will continue to evolve, leading to more sustainable and effective combustion solutions. By focusing on optimizing primary air supply, industries can contribute to a cleaner environment while also enhancing their operational efficiency.
在燃烧过程的研究中,术语primary air(主要空气)在决定燃料燃烧的效率和效果方面起着至关重要的作用。Primary air指的是在燃料进入燃烧室之前与燃料混合的初始空气。这种混合物对于实现最佳燃烧条件至关重要,因为它确保有足够的氧气可供燃料反应,从而最大限度地提高能量输出,同时减少排放。当我们考虑各种类型的燃烧系统时,例如工业锅炉或内燃机,primary air的管理变得更加关键。例如,在锅炉系统中,提供的primary air的数量会显著影响燃烧温度和污染物如氮氧化物(NOx)和一氧化碳(CO)的形成。Primary air过少可能导致不完全燃烧,从而导致更高的排放和较低的效率。相反,primary air过多可能会冷却燃烧过程,并且也会增加某些污染物的产生。为了优化燃烧过程,工程师通常利用先进的控制系统来监测和调整primary air的流量,基于燃烧过程的实时数据。这不仅提高了系统的性能,还有助于满足排放的监管标准。例如,在现代燃气涡轮机中,精确控制primary air可以提高效率并减少环境影响。此外,了解primary air的动态对于设计燃烧系统也很重要。设计必须考虑使用的燃料类型、所需的燃烧特性以及燃烧系统的具体应用。一个设计良好的系统将确保primary air与燃料充分混合,促进高效燃烧并减少操作问题的可能性。总之,primary air(主要空气)是燃烧工程领域的一个基本组成部分。其适当管理对于在各种燃烧应用中实现高效率和低排放至关重要。随着技术的进步,精确控制primary air的能力将继续发展,带来更可持续和有效的燃烧解决方案。通过关注优化primary air供应,各行业可以为更清洁的环境做出贡献,同时增强它们的运营效率。
