fuel throttle

简明释义

油门

英英释义

例句

1.To increase the speed of the vehicle, the driver adjusted the fuel throttle.

为了提高车辆的速度，司机调整了燃油节气门。

2.A malfunctioning fuel throttle can cause the car to stall unexpectedly.

故障的燃油节气门可能导致汽车意外熄火。

3.If the fuel throttle is stuck, it can lead to engine performance issues.

如果燃油节气门卡住，可能会导致发动机性能问题。

4.The mechanic explained how to properly calibrate the fuel throttle for better fuel efficiency.

机械师解释了如何正确校准燃油节气门以提高燃油效率。

5.During the test drive, the engineer monitored the fuel throttle response.

在试驾过程中，工程师监测了燃油节气门的响应。

作文

In the world of automotive engineering, the term fuel throttle refers to a critical component that regulates the amount of fuel delivered to the engine. This process is essential for maintaining optimal performance and efficiency in vehicles. Understanding the function and importance of the fuel throttle can help car enthusiasts and everyday drivers alike appreciate the complexities of modern engines. The fuel throttle works in conjunction with the air intake system to ensure that the right mixture of air and fuel enters the combustion chamber. When the driver accelerates, the throttle opens up, allowing more fuel to flow into the engine. This increase in fuel supply enhances the engine's power output, enabling the vehicle to speed up. Conversely, when the driver eases off the accelerator, the throttle closes, reducing the fuel flow and consequently slowing down the vehicle. One of the most significant advancements in automotive technology has been the transition from mechanical to electronic fuel throttles. Traditional systems relied on a cable connected to the accelerator pedal, which mechanically opened and closed the throttle plate. However, modern vehicles often use electronic throttle control (ETC) systems, which utilize sensors and actuators to manage the fuel throttle more precisely. This shift has improved fuel efficiency, reduced emissions, and enhanced overall driving performance. Moreover, the integration of computer systems into the throttle control allows for more sophisticated features such as cruise control and traction control. These systems analyze various parameters, including engine load and vehicle speed, to adjust the fuel throttle position accordingly. For instance, during a steep incline, the system can automatically increase fuel delivery to maintain speed, ensuring a smooth driving experience. The importance of the fuel throttle extends beyond mere performance. It plays a vital role in fuel economy and emissions control. A well-functioning throttle ensures that the engine operates efficiently, consuming less fuel while producing fewer harmful emissions. In contrast, a malfunctioning or poorly calibrated fuel throttle can lead to excessive fuel consumption and increased pollutants being released into the atmosphere. For car owners, understanding the fuel throttle can also aid in identifying potential issues with their vehicles. Symptoms such as poor acceleration, stalling, or erratic engine behavior may indicate problems with the throttle system. Regular maintenance and timely inspections can help prevent these issues, ensuring that the fuel throttle functions optimally. In conclusion, the fuel throttle is a fundamental component of modern automotive engines, playing a crucial role in performance, efficiency, and emissions control. Whether through traditional mechanical means or advanced electronic systems, its function remains vital to the operation of any vehicle. By understanding how the fuel throttle works and its impact on driving, both enthusiasts and everyday drivers can better appreciate the intricate workings of their cars. As technology continues to evolve, the fuel throttle will undoubtedly play an even more significant role in shaping the future of automotive engineering.

在汽车工程的世界中，术语燃料节气门指的是一种关键组件，用于调节送入发动机的燃料量。这个过程对于保持车辆的最佳性能和效率至关重要。理解燃料节气门的功能和重要性可以帮助汽车爱好者和普通驾驶者更好地欣赏现代发动机的复杂性。燃料节气门与进气系统协同工作，以确保适当的空气和燃料混合物进入燃烧室。当驾驶者加速时，节气门打开，允许更多燃料流入发动机。这种燃料供应的增加增强了发动机的功率输出，使车辆能够加速。相反，当驾驶者松开油门时，节气门关闭，减少燃料流动，从而减速。汽车技术的一个重大进步是从机械节气门转向电子节气门。传统系统依靠连接到加速踏板的电缆，机械地打开和关闭节气门板。然而，现代车辆通常使用电子节气门控制（ETC）系统，该系统利用传感器和执行器更精确地管理燃料节气门。这种转变改善了燃油效率，减少了排放，并增强了整体驾驶性能。此外，节气门控制中计算机系统的集成允许更复杂的功能，如巡航控制和牵引控制。这些系统分析各种参数，包括发动机负荷和车辆速度，以相应调整燃料节气门的位置。例如，在陡坡上，系统可以自动增加燃料供应以维持速度，从而确保平稳的驾驶体验。燃料节气门的重要性不仅限于性能。它在燃油经济性和排放控制方面也发挥着至关重要的作用。一个运作良好的节气门确保发动机高效运行，消耗更少的燃料，同时产生更少的有害排放。相比之下，故障或校准不当的燃料节气门可能导致过度的燃料消耗和更多污染物被释放到大气中。对于车主来说，了解燃料节气门也有助于识别潜在的车辆问题。加速不良、熄火或发动机行为不稳定等症状可能表明节气门系统存在问题。定期维护和及时检查可以帮助防止这些问题，确保燃料节气门的最佳功能。总之，燃料节气门是现代汽车发动机的基本组成部分，在性能、效率和排放控制方面发挥着至关重要的作用。无论是通过传统的机械方式还是先进的电子系统，其功能对任何车辆的运行至关重要。通过理解燃料节气门的工作原理及其对驾驶的影响，无论是爱好者还是普通驾驶者都能更好地欣赏他们汽车的复杂运作。随着技术的不断发展，燃料节气门无疑将在塑造汽车工程的未来中发挥更重要的作用。