primary air

简明释义

主空气

英英释义

例句

1.Proper mixing of primary air 一次空气 with fuel enhances combustion efficiency in industrial burners.

将一次空气一次空气与燃料进行适当混合可以提高工业燃烧器的燃烧效率。

2.The combustion process in the furnace requires a sufficient amount of primary air 一次空气 to ensure efficient burning.

炉子的燃烧过程需要足够的一次空气一次空气以确保高效燃烧。

3.Adjusting the flow of primary air 一次空气 can significantly impact the performance of the boiler.

调整一次空气一次空气的流量可以显著影响锅炉的性能。

4.The design of the air intake system must accommodate the required volume of primary air 一次空气 for the engine.

空气进气系统的设计必须满足发动机所需的一次空气一次空气的体积。

5.In gas turbines, the ratio of primary air 一次空气 to fuel is critical for optimal operation.

在燃气轮机中，一次空气一次空气与燃料的比率对最佳操作至关重要。

作文

In the world of combustion and energy production, understanding the role of primary air is crucial. Primary air refers to the air that is mixed with fuel before it enters the combustion chamber. This mixture is essential for achieving efficient combustion in various systems, such as boilers and engines. The correct amount of primary air ensures that the fuel burns completely, which not only maximizes energy output but also minimizes harmful emissions.When discussing the importance of primary air, it is vital to recognize its impact on the overall efficiency of combustion processes. For instance, in a coal-fired power plant, the amount of primary air must be carefully controlled. If there is too much primary air, it can lead to incomplete combustion, resulting in unburned fuel and increased emissions. Conversely, if there is too little primary air, the combustion may become unstable, leading to soot formation and other operational issues.Moreover, the temperature and pressure of primary air play a significant role in combustion efficiency. Higher temperatures can enhance the reactivity of the fuel-air mixture, thus promoting better combustion. Additionally, maintaining optimal pressure conditions for primary air can help achieve a more uniform distribution of the air-fuel mixture, which is critical for consistent combustion performance.In industrial applications, the management of primary air is often integrated into advanced control systems. These systems monitor various parameters, such as fuel type, combustion temperature, and emission levels, to adjust the flow of primary air dynamically. By utilizing real-time data, operators can optimize the combustion process, ensuring that the energy produced is both efficient and environmentally friendly.The significance of primary air extends beyond just efficiency; it also has implications for safety. Inadequate supply of primary air can lead to dangerous situations, such as backdrafts or explosions, especially in confined spaces where fuel accumulates. Therefore, understanding how to regulate primary air is not only about improving performance but also about ensuring safe operation.In conclusion, primary air is a fundamental component of combustion systems that directly affects efficiency, emissions, and safety. Whether in power generation, manufacturing, or even residential heating, the proper management of primary air is essential for optimizing performance and minimizing environmental impact. As technology advances, the ability to control and monitor primary air will continue to evolve, leading to even greater efficiencies and safer operations in the future.

在燃烧和能源生产的世界中，理解primary air的作用至关重要。Primary air指的是在燃料进入燃烧室之前与燃料混合的空气。这种混合物对实现各种系统（如锅炉和发动机）的高效燃烧至关重要。正确的primary air量确保燃料完全燃烧，这不仅最大化了能量输出，还最小化了有害排放。讨论primary air的重要性时，必须认识到它对燃烧过程整体效率的影响。例如，在燃煤发电厂中，primary air的量必须严格控制。如果primary air过多，可能导致不完全燃烧，造成未燃烧的燃料和增加排放。相反，如果primary air过少，燃烧可能变得不稳定，导致烟尘形成和其他操作问题。此外，primary air的温度和压力在燃烧效率中也起着重要作用。较高的温度可以增强燃料-空气混合物的反应性，从而促进更好的燃烧。此外，保持primary air的最佳压力条件可以帮助实现更均匀的空气-燃料混合物分布，这对于一致的燃烧性能至关重要。在工业应用中，primary air的管理通常集成在先进的控制系统中。这些系统监测各种参数，如燃料类型、燃烧温度和排放水平，以动态调整primary air的流量。通过利用实时数据，操作员可以优化燃烧过程，确保产生的能量既高效又环保。Primary air的重要性不仅限于效率；它还对安全性产生影响。不足的primary air供应可能导致危险情况，例如回流或爆炸，尤其是在燃料积聚的密闭空间中。因此，理解如何调节primary air不仅关乎提高性能，还关乎确保安全操作。总之，primary air是燃烧系统的基本组成部分，直接影响效率、排放和安全性。无论是在发电、制造还是住宅供暖中，适当管理primary air对于优化性能和最小化环境影响至关重要。随着技术的进步，控制和监测primary air的能力将继续发展，未来将实现更大的效率和更安全的操作。