fuel controller
简明释义
燃料供给控制器
英英释义
A fuel controller is a device or system that regulates the flow and consumption of fuel in an engine or machinery to optimize performance and efficiency. | 燃料控制器是一种设备或系统,用于调节发动机或机械中的燃料流动和消耗,以优化性能和效率。 |
例句
1.If the fuel controller malfunctions, the vehicle may experience poor performance.
如果燃料控制器发生故障,车辆可能会出现性能下降。
2.A modern fuel controller can improve fuel efficiency significantly.
现代的燃料控制器可以显著提高燃油效率。
3.The technician adjusted the fuel controller to optimize the engine's performance.
技术人员调整了燃料控制器以优化发动机性能。
4.Many racing cars use advanced fuel controllers for better speed management.
许多赛车使用先进的燃料控制器来更好地管理速度。
5.The fuel controller regulates the amount of fuel injected into the engine.
这个燃料控制器调节注入发动机的燃料量。
作文
In the world of modern engineering and automotive technology, the term fuel controller refers to a critical component that regulates the flow of fuel into an engine. This device plays a vital role in ensuring optimal performance, efficiency, and emissions control. The fuel controller is responsible for adjusting the amount of fuel injected based on various parameters such as engine speed, load, and temperature. By doing so, it helps maintain the ideal air-fuel ratio, which is crucial for the combustion process. The importance of a well-functioning fuel controller cannot be overstated. When this component malfunctions, it can lead to a range of issues including poor fuel economy, increased emissions, and even engine damage. For instance, if the fuel controller allows too much fuel to enter the combustion chamber, the engine may run rich, causing unburned fuel to exit through the exhaust. This not only wastes fuel but also contributes to environmental pollution. On the other hand, if too little fuel is injected, the engine may run lean, leading to overheating and potential engine failure.Modern fuel controllers are typically electronic and are often integrated with the vehicle's Engine Control Unit (ECU). This integration allows for real-time adjustments and fine-tuning based on driving conditions. Advanced systems utilize sensors to monitor various engine parameters and adjust the fuel delivery accordingly. For example, a mass airflow sensor measures the amount of air entering the engine, and the fuel controller uses this information to determine the appropriate fuel quantity needed for efficient combustion.In addition to performance improvements, the use of a sophisticated fuel controller can significantly reduce harmful emissions. Stricter environmental regulations have prompted manufacturers to develop more advanced fuel management systems that comply with these standards. By optimizing the air-fuel mixture, these systems help minimize the production of carbon monoxide, hydrocarbons, and nitrogen oxides, which are major contributors to air pollution.Furthermore, the evolution of technology has led to the development of alternative fuel vehicles, which also rely on fuel controllers. For instance, electric vehicles (EVs) and hybrid vehicles utilize different types of fuel management systems to optimize energy usage and enhance overall efficiency. In these cases, the fuel controller not only manages traditional fuels but also integrates with electric powertrains to provide a seamless driving experience.In conclusion, the fuel controller is an indispensable part of modern engines, playing a crucial role in fuel management and emissions control. As technology continues to advance, we can expect further innovations in fuel controller systems, leading to even greater efficiency and reduced environmental impact. Understanding the function and importance of the fuel controller is essential for anyone involved in automotive engineering or interested in the future of transportation. Overall, the fuel controller exemplifies the intersection of technology and environmental responsibility, making it a key focus for both engineers and consumers alike.
在现代工程和汽车技术的世界中,术语燃油控制器指的是调节燃料流入发动机的关键组件。该设备在确保最佳性能、效率和排放控制方面发挥着至关重要的作用。燃油控制器负责根据发动机转速、负载和温度等各种参数调整喷入的燃料量。通过这样做,它有助于维持理想的空气-燃料比,这对于燃烧过程至关重要。功能良好的燃油控制器的重要性不容小觑。当该组件发生故障时,可能会导致一系列问题,包括燃油经济性差、排放增加甚至发动机损坏。例如,如果燃油控制器允许过多燃料进入燃烧室,发动机可能会运行过浓,导致未燃烧的燃料通过排气管排出。这不仅浪费燃料,还会导致环境污染。另一方面,如果注入的燃料太少,发动机可能会运行过稀,导致过热和潜在的发动机故障。现代的燃油控制器通常是电子的,并且通常与车辆的发动机控制单元(ECU)集成在一起。这种集成允许根据驾驶条件进行实时调整和微调。先进的系统利用传感器监测各种发动机参数,并相应地调整燃料供给。例如,质量空气流量传感器测量进入发动机的空气量,而燃油控制器使用这些信息来确定高效燃烧所需的适当燃料量。除了性能改善之外,使用复杂的燃油控制器还可以显著减少有害排放。更严格的环境法规促使制造商开发出符合这些标准的更先进的燃料管理系统。通过优化空气-燃料混合物,这些系统有助于最小化一氧化碳、烃和氮氧化物的产生,这些都是空气污染的主要成因。此外,技术的发展还导致了替代燃料车辆的开发,这些车辆也依赖于燃油控制器。例如,电动车(EV)和混合动力车利用不同类型的燃料管理系统来优化能源使用并增强整体效率。在这些情况下,燃油控制器不仅管理传统燃料,还与电动动力系统集成,以提供无缝的驾驶体验。总之,燃油控制器是现代发动机不可或缺的一部分,在燃料管理和排放控制中发挥着至关重要的作用。随着技术的不断进步,我们可以期待燃油控制器系统的进一步创新,从而实现更高的效率和减少对环境的影响。理解燃油控制器的功能和重要性对于任何参与汽车工程或对交通未来感兴趣的人来说都是必不可少的。总体而言,燃油控制器体现了技术与环保责任的交汇,使其成为工程师和消费者关注的重点。
相关单词
