sequential turbocharging system

简明释义

连续增压系统

英英释义

例句

1.The new sports car features a sequential turbocharging system, which significantly enhances its acceleration.

这款新跑车配备了一个顺序涡轮增压系统，显著提高了加速性能。

2.Engineers are experimenting with a new sequential turbocharging system to improve fuel efficiency.

工程师们正在尝试一种新的顺序涡轮增压系统以提高燃油效率。

3.With the implementation of a sequential turbocharging system, the engine can deliver power more efficiently across different RPM ranges.

通过实施顺序涡轮增压系统，发动机可以在不同转速范围内更高效地提供动力。

4.Many modern diesel engines utilize a sequential turbocharging system to meet stringent emission standards.

许多现代柴油发动机采用顺序涡轮增压系统以符合严格的排放标准。

5.The sequential turbocharging system in this vehicle allows for better throttle response at low speeds.

这辆车中的顺序涡轮增压系统使得低速时的油门响应更佳。

作文

In the world of automotive engineering, the quest for increased power and efficiency has led to the development of various technologies. One such innovation is the sequential turbocharging system, which has revolutionized the way engines operate. This system employs multiple turbochargers that work in a sequence to optimize performance across a wide range of engine speeds. The primary goal is to eliminate the lag typically associated with traditional single-turbo setups while enhancing overall power output.To understand the significance of the sequential turbocharging system, it is essential to grasp how turbochargers function. A turbocharger uses exhaust gases to spin a turbine, which then compresses incoming air, allowing more air and fuel into the engine. This process increases the engine's power output without significantly increasing its size. However, traditional turbochargers often suffer from 'turbo lag,' a delay in power delivery as the turbo spools up. This is where the sequential turbocharging system comes into play.The sequential turbocharging system typically consists of two or more turbochargers of different sizes. The smaller turbocharger activates at lower engine speeds, providing quick response and minimizing lag. As the engine speed increases, the larger turbocharger takes over, delivering higher levels of boost and power. This sequential operation ensures that the engine remains responsive and powerful across various driving conditions.One of the most notable advantages of the sequential turbocharging system is its ability to improve fuel efficiency. By optimizing the air-fuel mixture and reducing reliance on larger displacement engines, manufacturers can create smaller, lighter engines that produce the same power output as their larger counterparts. This not only benefits performance but also contributes to lower emissions, aligning with modern environmental standards.Several automotive manufacturers have successfully implemented the sequential turbocharging system in their high-performance vehicles. For instance, brands like Nissan and Audi have developed models that utilize this technology to enhance driving dynamics and overall performance. The results are impressive: drivers experience quicker acceleration, improved throttle response, and a more exhilarating driving experience.Despite its advantages, the sequential turbocharging system is not without challenges. The complexity of having multiple turbochargers requires advanced engineering and precise tuning to ensure seamless operation. Additionally, the cost of production can be higher compared to traditional systems, which may deter some manufacturers from adopting this technology.In conclusion, the sequential turbocharging system represents a significant advancement in automotive technology. By employing multiple turbochargers in a sequential manner, this system effectively addresses the common issues of turbo lag while enhancing power output and fuel efficiency. As the automotive industry continues to evolve, we can expect to see more vehicles equipped with this innovative technology, paving the way for a new era of high-performance, environmentally friendly engines.

在汽车工程的世界中，追求更高的动力和效率促使了各种技术的发展。其中一种创新就是顺序增压系统，它彻底改变了发动机的运作方式。该系统采用多个增压器按顺序工作，以优化发动机在广泛转速范围内的性能。其主要目标是消除传统单涡轮增压器所带来的滞后，同时提高整体功率输出。要理解顺序增压系统的重要性，首先需要了解增压器的工作原理。增压器利用废气来旋转涡轮，然后压缩进入的空气，从而让更多的空气和燃料进入发动机。这个过程在不显著增加发动机体积的情况下，提高了发动机的功率输出。然而，传统增压器往往存在“涡轮滞后”的问题，即当涡轮增压器开始工作时，动力输出的延迟。这就是顺序增压系统发挥作用的地方。顺序增压系统通常由两个或多个不同尺寸的增压器组成。较小的增压器在较低的发动机转速下启动，提供快速响应并最小化滞后。当发动机转速增加时，较大的增压器接管，提供更高的增压和功率。这种顺序操作确保发动机在各种驾驶条件下保持响应灵敏和强大。顺序增压系统最显著的优势之一是提高燃油效率。通过优化空气-燃料混合物并减少对大排量发动机的依赖，制造商能够创造出更小、更轻的发动机，而这些发动机能够产生与其更大同类产品相同的功率输出。这不仅有利于性能，还有助于降低排放，符合现代环境标准。一些汽车制造商成功地在其高性能车型中实施了顺序增压系统。例如，日产和奥迪等品牌开发了利用这一技术来增强驾驶动态和整体性能的车型。结果令人印象深刻：驾驶者体验到更快的加速、改善的油门响应以及更加令人兴奋的驾驶体验。尽管具有优势，顺序增压系统也面临挑战。拥有多个增压器的复杂性需要先进的工程设计和精确的调校，以确保无缝操作。此外，与传统系统相比，生产成本可能更高，这可能会阻止一些制造商采用这项技术。总之，顺序增压系统代表了汽车技术的一项重大进步。通过以顺序方式使用多个增压器，该系统有效解决了涡轮滞后的常见问题，同时提高了功率输出和燃油效率。随着汽车工业的不断发展，我们可以期待看到更多配备这一创新技术的车辆，为高性能、环保发动机的新纪元铺平道路。