swirl injection

简明释义

旋流喷射

英英释义

例句

1.We saw a reduction in emissions after switching to swirl injection in our diesel engines.

在我们的柴油发动机中切换到涡流喷射后，排放量减少。

2.The new model features advanced swirl injection for improved power delivery.

新型号采用先进的涡流喷射以改善动力输出。

3.The engine's performance improved significantly after we implemented the swirl injection system.

在我们实施了涡流喷射系统后，发动机的性能显著提升。

4.The research focused on how swirl injection affects combustion characteristics.

研究集中在涡流喷射如何影响燃烧特性。

5.Using swirl injection technology can lead to better fuel efficiency in vehicles.

使用涡流喷射技术可以提高车辆的燃油效率。

作文

In the realm of modern automotive engineering, innovations continue to enhance engine performance, fuel efficiency, and emissions control. One such innovation that has gained significant attention is swirl injection, a technology that optimizes the combustion process within an engine. Understanding how swirl injection works can provide insights into its benefits and applications in today’s vehicles.The principle behind swirl injection lies in the way fuel is introduced into the combustion chamber. Traditionally, fuel is injected directly into the chamber without any specific manipulation of its flow. However, with swirl injection, the fuel is injected in a manner that creates a swirling motion within the combustion chamber. This swirling action enhances the mixing of air and fuel, leading to a more homogeneous mixture. As a result, the combustion process becomes more efficient, which can lead to improved power output and reduced emissions.One of the key advantages of swirl injection is its ability to promote better atomization of the fuel. When fuel is atomized effectively, it forms smaller droplets that can ignite more easily and burn more completely. This not only maximizes the energy extracted from the fuel but also minimizes unburned hydrocarbons that contribute to pollution. Consequently, vehicles equipped with swirl injection systems often meet stringent emission standards while delivering impressive performance.Additionally, swirl injection contributes to better thermal efficiency in engines. The increased turbulence created by the swirling motion helps to maintain a more uniform temperature distribution within the combustion chamber. This uniformity reduces the likelihood of hotspots that can lead to knocking or pre-ignition, both of which can severely damage an engine over time. By ensuring a stable and controlled combustion process, swirl injection enhances the overall reliability and longevity of the engine.Moreover, as the automotive industry shifts towards more sustainable practices, technologies like swirl injection play a crucial role in developing cleaner engines. With the rising concern over climate change and air quality, manufacturers are under pressure to produce vehicles that are not only powerful but also environmentally friendly. Swirl injection aligns perfectly with this goal, as it enables engines to achieve higher efficiency rates while reducing harmful emissions.In conclusion, swirl injection represents a significant advancement in engine technology. By improving the mixing of air and fuel, enhancing atomization, and promoting thermal efficiency, this innovative approach contributes to the development of high-performance, low-emission vehicles. As we look to the future of automotive engineering, it is clear that technologies like swirl injection will be pivotal in shaping a more sustainable and efficient automotive landscape.

在现代汽车工程领域，创新不断提升发动机性能、燃油效率和排放控制。其中一个引起广泛关注的创新是涡流喷射，这项技术优化了发动机内的燃烧过程。理解涡流喷射的工作原理可以为我们提供关于其优点和在当今车辆中的应用的见解。涡流喷射的原理在于燃油如何被引入燃烧室。传统上，燃油直接注入燃烧室，而不对其流动进行特定的操作。然而，通过涡流喷射，燃油以一种方式注入，产生了燃烧室内的旋转运动。这种旋转动作增强了空气与燃油的混合，从而形成了更均匀的混合物。因此，燃烧过程变得更加高效，这可能导致功率输出的提高和排放的减少。涡流喷射的主要优点之一是能够促进燃油的更好雾化。当燃油有效雾化时，它形成了更小的液滴，这些液滴更容易点燃并更完全地燃烧。这不仅最大限度地提取了燃油的能量，还最小化了未燃烧的碳氢化合物，这些物质会导致污染。因此，配备涡流喷射系统的车辆通常能够满足严格的排放标准，同时提供令人印象深刻的性能。此外，涡流喷射有助于提高发动机的热效率。旋转运动产生的湍流增加了燃烧室内温度分布的均匀性。这种均匀性减少了热点的可能性，而热点可能导致敲击或提前点火，这两者都可能随着时间的推移严重损坏发动机。通过确保稳定和可控的燃烧过程，涡流喷射增强了发动机的整体可靠性和耐用性。随着汽车行业向更可持续的实践转变，像涡流喷射这样的技术在开发更清洁的发动机方面发挥了关键作用。随着人们对气候变化和空气质量的关注加剧，制造商面临着生产既强大又环保的车辆的压力。涡流喷射与这一目标完美契合，因为它使发动机能够实现更高的效率率，同时减少有害排放。总之，涡流喷射代表了发动机技术的一项重大进步。通过改善空气和燃油的混合、增强雾化和促进热效率，这一创新方法有助于开发高性能、低排放的车辆。展望未来的汽车工程，显然像涡流喷射这样的技术将在塑造一个更可持续和高效的汽车景观中发挥关键作用。