air intake
简明释义
进气口
英英释义
例句
1.The mechanic inspected the engine's air intake to ensure it was free of debris.
机械师检查了发动机的进气口以确保它没有杂物。
2.A clean air intake is crucial for optimal engine performance.
干净的进气口对发动机的最佳性能至关重要。
3.The car's air intake system was upgraded to improve fuel efficiency.
汽车的进气系统经过升级,以提高燃油效率。
4.He noticed a drop in power, which was traced back to a clogged air intake.
他注意到动力下降,追溯原因发现是由于进气口堵塞。
5.The air intake on this model is located at the front for better airflow.
这一型号的进气口位于前方,以获得更好的气流。
作文
The concept of air intake is crucial in various fields, particularly in automotive engineering and environmental science. In simple terms, air intake refers to the process through which air enters a system, such as an engine or a building. Understanding this concept can lead to significant improvements in efficiency and performance. In automotive engineering, the air intake system plays a vital role in determining an engine's power output and fuel efficiency. The air intake system is designed to deliver the right amount of air to the engine's combustion chamber. When air enters the engine, it mixes with fuel and is ignited to produce energy. A well-designed air intake system ensures that the engine receives clean, cool air, which enhances combustion efficiency. This is why many car manufacturers invest heavily in optimizing their air intake designs. For instance, some vehicles feature cold air intakes that draw air from outside the engine compartment, where the air is cooler and denser. This results in better engine performance compared to traditional air intake systems.Moreover, the air intake system can also affect emissions. An efficient air intake reduces the amount of unburned fuel that escapes into the atmosphere, thereby lowering harmful emissions. As environmental regulations become stricter, the importance of optimizing air intake systems continues to grow. Engineers are constantly looking for innovative solutions to improve air intake efficiency while minimizing the environmental impact of vehicles.In addition to automotive applications, the concept of air intake is equally important in the context of buildings and ventilation systems. Proper air intake is essential for maintaining indoor air quality and ensuring that occupants breathe clean air. In commercial buildings, the air intake system is designed to bring in fresh outdoor air while removing stale indoor air. This exchange is vital for preventing the buildup of pollutants and maintaining a healthy environment.Furthermore, advancements in technology have led to more sophisticated air intake systems in modern buildings. For example, some systems utilize sensors to monitor air quality and adjust the air intake accordingly. This not only improves comfort but also enhances energy efficiency by reducing the need for heating or cooling when the outdoor air is already at a suitable temperature.In conclusion, the term air intake encompasses a wide range of applications and implications in both automotive and architectural contexts. In vehicles, optimizing the air intake system can lead to improved performance and reduced emissions, while in buildings, effective air intake is crucial for ensuring good indoor air quality. As technology continues to evolve, the significance of air intake systems will likely increase, making them a key focus for engineers and architects alike. Understanding the principles behind air intake can ultimately lead to innovations that benefit both performance and sustainability.
“空气进气”这一概念在多个领域中至关重要,特别是在汽车工程和环境科学中。简单来说,空气进气指的是空气进入某个系统的过程,例如发动机或建筑物。理解这一概念可以带来效率和性能的显著提升。在汽车工程中,空气进气系统在决定发动机的功率输出和燃油效率方面发挥着重要作用。空气进气系统旨在将适量的空气输送到发动机的燃烧室。当空气进入发动机时,它与燃料混合并点燃以产生能量。一个设计良好的空气进气系统确保发动机接收干净、凉爽的空气,从而增强燃烧效率。这就是为什么许多汽车制造商在优化其空气进气设计上投入大量资金的原因。例如,一些车辆配备了冷空气进气系统,从发动机舱外部吸入空气,在那里空气更凉爽、更密集。这相比传统的空气进气系统能够带来更好的发动机性能。此外,空气进气系统还会影响排放。高效的空气进气减少了未燃烧燃料排放到大气中的数量,从而降低有害排放。随着环境法规日益严格,优化空气进气系统的重要性持续增长。工程师们不断寻求创新解决方案,以提高空气进气效率,同时最小化对环境的影响。除了汽车应用外,在建筑和通风系统的背景下,空气进气的概念同样重要。适当的空气进气对于维持室内空气质量和确保居住者呼吸到清洁空气至关重要。在商业建筑中,空气进气系统旨在引入新鲜的户外空气,同时排出陈旧的室内空气。这种交换对于防止污染物积聚和维持健康环境至关重要。此外,技术的进步使得现代建筑中的空气进气系统变得更加复杂。例如,一些系统利用传感器监测空气质量并相应调整空气进气。这不仅提高了舒适度,还通过减少加热或冷却的需求来增强能源效率,因为户外空气已经处于适宜的温度。总之,术语空气进气涵盖了汽车和建筑两个领域中广泛的应用和影响。在车辆中,优化空气进气系统可以提高性能并减少排放,而在建筑中,有效的空气进气对于确保良好的室内空气质量至关重要。随着技术的不断发展,空气进气系统的重要性可能会增加,使其成为工程师和建筑师关注的重点。理解空气进气背后的原理最终可以带来有利于性能和可持续性的创新。
