automatic fuel-metering control
简明释义
燃油计量自动控制
英英释义
A system that automatically regulates the amount of fuel delivered to an engine or combustion process, ensuring optimal performance and efficiency. | 一种自动调节燃料供应到发动机或燃烧过程的系统,以确保最佳性能和效率。 |
例句
1.The technician explained how automatic fuel-metering control works in conjunction with the engine's sensors.
技术人员解释了自动燃料计量控制如何与发动机传感器协同工作。
2.The automatic fuel-metering control system reduces emissions by ensuring precise fuel usage.
该自动燃料计量控制系统通过确保精确的燃料使用来减少排放。
3.The new engine design includes automatic fuel-metering control to optimize performance.
新发动机设计包括自动燃料计量控制以优化性能。
4.With automatic fuel-metering control, the vehicle can adjust fuel delivery based on driving conditions.
通过自动燃料计量控制,车辆可以根据驾驶条件调整燃料供应。
5.In modern cars, automatic fuel-metering control enhances fuel efficiency significantly.
在现代汽车中,自动燃料计量控制显著提高了燃油效率。
作文
In modern automotive engineering, efficiency and performance are paramount. One of the significant advancements in this field is the implementation of automatic fuel-metering control, which plays a crucial role in optimizing engine performance while minimizing emissions. This technology allows for precise regulation of fuel delivery to the engine based on various operating conditions, ensuring that the right amount of fuel is injected at the right time. The primary objective of automatic fuel-metering control is to enhance fuel efficiency and reduce waste, which is increasingly important in an era where environmental concerns are at the forefront of public discourse.The concept of automatic fuel-metering control revolves around the use of sensors and electronic control units (ECUs) that continuously monitor engine parameters such as temperature, speed, and load. By analyzing this data, the system can make real-time adjustments to the fuel injection process. For instance, during acceleration, the engine requires more fuel to deliver the necessary power, and the automatic fuel-metering control system responds accordingly by increasing the fuel flow. Conversely, during deceleration or idling, the system reduces the fuel supply, thereby improving overall fuel economy.This technology not only enhances performance but also contributes to reducing harmful emissions. Traditional fuel systems often relied on mechanical components that could not adapt quickly to changing conditions. In contrast, automatic fuel-metering control utilizes advanced algorithms and feedback loops, allowing for rapid adjustments that result in cleaner combustion. As a result, vehicles equipped with this technology tend to meet stringent emission regulations, making them more environmentally friendly.Moreover, the integration of automatic fuel-metering control into modern vehicles has led to improved drivability and responsiveness. Drivers can experience smoother acceleration and better throttle response, which enhances the overall driving experience. This is particularly important in today’s competitive automotive market, where consumer expectations for performance and comfort are higher than ever.In addition to passenger vehicles, automatic fuel-metering control is also utilized in various applications, including commercial trucks, motorcycles, and even small engines used in lawn equipment. The versatility of this technology demonstrates its importance across different sectors and highlights the potential for further advancements in fuel management systems.Looking ahead, the future of automatic fuel-metering control seems promising, especially with the ongoing developments in artificial intelligence and machine learning. These technologies could further enhance the capabilities of fuel metering systems by enabling predictive analytics that anticipate engine needs based on driving habits and conditions. This would not only optimize fuel usage but could also lead to significant cost savings for consumers.In conclusion, automatic fuel-metering control represents a significant leap forward in automotive technology, providing benefits in terms of efficiency, performance, and environmental impact. As the automotive industry continues to evolve, the importance of such innovations will only grow, paving the way for a more sustainable and efficient future in transportation. Understanding and appreciating the role of automatic fuel-metering control is essential for anyone interested in the future of automotive engineering and environmental sustainability.
在现代汽车工程中,效率和性能至关重要。其中一个重要的进展是实施自动燃料计量控制,它在优化发动机性能的同时最小化排放方面发挥着关键作用。这项技术允许根据各种操作条件精确调节燃料送往发动机的量,确保在正确的时间注入正确数量的燃料。自动燃料计量控制的主要目标是提高燃油效率并减少浪费,这在当今环保问题日益受到公众关注的时代显得尤为重要。自动燃料计量控制的概念围绕使用传感器和电子控制单元(ECU)展开,这些设备持续监测发动机参数,如温度、速度和负载。通过分析这些数据,系统可以实时调整燃料喷射过程。例如,在加速过程中,发动机需要更多的燃料来提供必要的动力,而自动燃料计量控制系统会相应地增加燃料流量。相反,在减速或怠速时,系统会减少燃料供应,从而改善整体燃油经济性。这项技术不仅提升了性能,还有助于减少有害排放。传统的燃料系统通常依赖机械部件,无法快速适应变化的条件。相比之下,自动燃料计量控制利用先进的算法和反馈回路,能够快速调整,导致更清洁的燃烧。因此,配备此技术的车辆往往能够满足严格的排放法规,使其更加环保。此外,将自动燃料计量控制集成到现代车辆中也改善了可驾驭性和响应性。驾驶者可以体验到更平滑的加速和更好的油门响应,从而提升整体驾驶体验。这在当今竞争激烈的汽车市场中尤为重要,因为消费者对性能和舒适性的期望比以往任何时候都要高。除了乘用车,自动燃料计量控制还广泛应用于各种领域,包括商用卡车、摩托车,甚至用于草坪设备的小型发动机。这项技术的多功能性展示了其在各个行业中的重要性,并突显了燃料管理系统进一步发展的潜力。展望未来,自动燃料计量控制的前景似乎十分光明,尤其是在人工智能和机器学习不断发展的背景下。这些技术可能会进一步增强燃料计量系统的能力,使其能够基于驾驶习惯和条件预测发动机需求。这不仅将优化燃料使用,还可能为消费者带来显著的成本节约。总之,自动燃料计量控制代表了汽车技术的重大飞跃,在效率、性能和环境影响方面提供了好处。随着汽车行业的不断演变,这类创新的重要性只会增加,为交通运输的可持续和高效未来铺平道路。理解和欣赏自动燃料计量控制的作用,对任何对汽车工程和环境可持续性感兴趣的人来说都是至关重要的。
