engine regulation

简明释义

发动机调节

英英释义

例句

1.Proper engine regulation 发动机调节 can significantly reduce emissions from vehicles.

适当的发动机调节 发动机调节可以显著减少车辆排放。

2.The new software update improved the engine regulation 发动机调节 system, enhancing fuel efficiency.

新的软件更新改善了发动机调节 发动机调节系统，提高了燃油效率。

3.During the inspection, the technician checked the engine regulation 发动机调节 settings to ensure they were within optimal parameters.

在检查过程中，技术人员检查了发动机调节 发动机调节设置，以确保它们在最佳参数范围内。

4.The racing team focused on engine regulation 发动机调节 to maximize performance on the track.

赛车队专注于发动机调节 发动机调节以最大化赛道上的表现。

5.Advanced engine regulation 发动机调节 systems can adapt to different driving conditions automatically.

先进的发动机调节 发动机调节系统可以自动适应不同的驾驶条件。

作文

The term engine regulation refers to the various methods and systems used to control the performance and efficiency of an engine. In modern vehicles, the engine regulation system plays a crucial role in ensuring that the engine operates within its optimal parameters. This includes managing fuel injection, ignition timing, and air intake to maximize power output while minimizing emissions. Effective engine regulation is essential for meeting environmental standards and improving fuel economy.In the past, engines were primarily regulated through mechanical means. However, advancements in technology have led to the development of electronic control units (ECUs) that can monitor and adjust engine parameters in real-time. These sophisticated systems utilize sensors to gather data about various aspects of engine performance, such as temperature, pressure, and speed. The ECU then processes this information and makes necessary adjustments to maintain optimal performance. This shift from mechanical to electronic engine regulation has significantly improved the efficiency and reliability of modern engines.One of the key benefits of advanced engine regulation is its ability to adapt to changing driving conditions. For example, when a driver accelerates rapidly, the ECU can increase fuel delivery to provide the necessary power. Conversely, during steady-state cruising, the system can reduce fuel consumption by optimizing the air-fuel mixture. This dynamic adjustment not only enhances vehicle performance but also contributes to fuel savings, making it more economical for consumers.Moreover, engine regulation is integral to reducing harmful emissions. Stringent environmental regulations have prompted manufacturers to develop technologies that minimize pollutants released into the atmosphere. Through precise control of combustion processes, modern engine regulation systems can significantly lower emissions of nitrogen oxides (NOx), carbon monoxide (CO), and hydrocarbons (HC). This is particularly important as cities around the world face increasing air quality challenges.Additionally, the integration of hybrid and electric vehicle technologies has further evolved engine regulation. In hybrid vehicles, the regulation system must coordinate between the internal combustion engine and the electric motor. This requires complex algorithms to determine the most efficient mode of operation, whether it be using the electric motor alone, the engine alone, or a combination of both. Such innovations demonstrate how engine regulation is not just about controlling traditional engines but also adapting to new forms of propulsion.In conclusion, engine regulation is a vital aspect of modern automotive engineering. It encompasses a range of technologies aimed at optimizing engine performance, enhancing fuel efficiency, and reducing emissions. As the automotive industry continues to evolve, the importance of effective engine regulation will only grow, particularly in the context of global efforts to combat climate change and promote sustainable transportation solutions. Understanding the principles behind engine regulation is essential for anyone interested in the future of automotive technology and environmental stewardship.

“发动机调节”一词指的是用于控制发动机性能和效率的各种方法和系统。在现代车辆中，发动机调节系统在确保发动机在最佳参数内运行方面发挥着至关重要的作用。这包括管理燃油喷射、点火时机和空气进气，以最大化功率输出，同时最小化排放。有效的发动机调节对满足环境标准和提高燃油经济性至关重要。在过去，发动机主要通过机械手段进行调节。然而，技术的进步导致电子控制单元（ECU）的发展，这些单元可以实时监测和调整发动机参数。这些复杂的系统利用传感器收集关于发动机性能各个方面的数据，例如温度、压力和速度。然后，ECU处理这些信息并进行必要的调整，以维持最佳性能。这种从机械到电子的发动机调节的转变显著提高了现代发动机的效率和可靠性。先进的发动机调节的一个关键好处是其适应变化驾驶条件的能力。例如，当驾驶员快速加速时，ECU可以增加燃料供应以提供所需的动力。相反，在稳定巡航时，系统可以通过优化空气-燃料混合物来减少燃油消耗。这种动态调整不仅增强了车辆性能，还有助于节省燃料，使消费者更加经济。此外，发动机调节对于减少有害排放至关重要。严格的环境法规促使制造商开发出减少排放到大气中的污染物的技术。通过精确控制燃烧过程，现代发动机调节系统可以显著降低氮氧化物（NOx）、一氧化碳（CO）和烃（HC）的排放。这一点尤其重要，因为世界各地的城市面临日益严重的空气质量挑战。此外，混合动力和电动汽车技术的整合进一步发展了发动机调节。在混合动力汽车中，调节系统必须协调内燃发动机和电动机之间的工作。这需要复杂的算法来确定最有效的操作模式，无论是单独使用电动机、单独使用发动机，还是两者的组合。这些创新展示了发动机调节不仅仅是控制传统发动机，还要适应新型推进方式。总之，发动机调节是现代汽车工程的一个重要方面。它涵盖了一系列旨在优化发动机性能、提高燃油效率和减少排放的技术。随着汽车工业的不断发展，有效的发动机调节的重要性只会增加，特别是在全球努力应对气候变化和促进可持续交通解决方案的背景下。理解发动机调节背后的原理对于任何对汽车技术和环境保护感兴趣的人来说都是至关重要的。