scavenge manifold

简明释义

扫气箱

英英释义

例句

1.During the inspection, we found a leak in the scavenge manifold 排气歧管, which could lead to performance issues.

在检查中，我们发现 排气歧管 scavenge manifold 有泄漏，这可能会导致性能问题。

2.Upgrading the scavenge manifold 排气歧管 can significantly enhance the turbocharger's response time.

升级 排气歧管 scavenge manifold 可以显著提高涡轮增压器的响应时间。

3.The engineer designed a new scavenge manifold 排气歧管 to optimize airflow in the system.

工程师设计了一种新的 排气歧管 scavenge manifold 以优化系统中的气流。

4.The mechanic explained that the scavenge manifold 排气歧管 is crucial for improving engine efficiency.

机械师解释说，排气歧管 scavenge manifold 对提高发动机效率至关重要。

5.It's essential to clean the scavenge manifold 排气歧管 regularly to prevent carbon buildup.

定期清洁 排气歧管 scavenge manifold 是防止碳沉积的关键。

作文

In the world of automotive engineering, the term scavenge manifold plays a crucial role in understanding how engines operate efficiently. A scavenge manifold is a component that helps manage the flow of exhaust gases and air within an engine, particularly in two-stroke engines. This system is designed to optimize the intake and exhaust processes, ensuring that the engine can perform at its best while minimizing emissions.To comprehend the significance of a scavenge manifold, we must first explore the basic functioning of an internal combustion engine. In traditional four-stroke engines, the cycle consists of intake, compression, power, and exhaust strokes. However, two-stroke engines operate differently; they complete a power cycle with every revolution of the crankshaft. This means that the timing of air and exhaust flow is critical for optimal performance.The scavenge manifold serves as a pathway for the fresh air-fuel mixture to enter the combustion chamber while simultaneously allowing the exhaust gases to exit. In a two-stroke engine, the design of the scavenge manifold is essential to prevent the mixing of fresh charge with exhaust gases, which would lead to inefficient combustion and increased emissions. By carefully controlling this process, engineers can enhance the power output and efficiency of the engine.Moreover, the design of a scavenge manifold can vary significantly depending on the specific application and performance requirements. For instance, in high-performance racing engines, the scavenge manifold may be engineered to maximize airflow and minimize resistance, allowing for quicker acceleration and higher top speeds. Conversely, in applications where fuel efficiency is paramount, the scavenge manifold might be optimized for smoother airflow, reducing drag and improving overall efficiency.Understanding the mechanics behind a scavenge manifold is not just important for engineers; it also provides valuable insights for automotive enthusiasts and consumers. By recognizing the role that this component plays in engine performance, individuals can make more informed decisions when selecting vehicles or modifying engines. For example, someone interested in tuning their vehicle for better performance may focus on upgrading the scavenge manifold as part of their overall strategy.In conclusion, the scavenge manifold is a vital component in the realm of engine design, particularly within two-stroke engines. Its function in managing the flow of air and exhaust gases directly impacts the efficiency and performance of the engine. As technology continues to evolve, so too will the designs and applications of scavenge manifolds, paving the way for more advanced and environmentally friendly automotive solutions. Understanding this concept not only enriches our knowledge of automotive engineering but also helps us appreciate the intricacies involved in creating powerful and efficient machines.

在汽车工程的世界中，术语scavenge manifold在理解发动机如何高效运作方面起着至关重要的作用。scavenge manifold是一个帮助管理发动机内排气和空气流动的组件，特别是在二冲程发动机中。该系统旨在优化进气和排气过程，确保发动机能够以最佳状态运行，同时减少排放。要理解scavenge manifold的重要性，我们首先必须探讨内燃机的基本工作原理。在传统的四冲程发动机中，循环包括进气、压缩、动力和排气冲程。然而，二冲程发动机的工作方式有所不同；它们在曲轴每转一圈时完成一个动力循环。这意味着空气和排气流动的时机对于最佳性能至关重要。scavenge manifold作为新鲜空气-燃料混合物进入燃烧室的通道，同时允许废气排出。在二冲程发动机中，scavenge manifold的设计对于防止新鲜气体与废气混合至关重要，因为这种混合会导致燃烧效率低下和排放增加。通过精确控制这个过程，工程师可以提高发动机的功率输出和效率。此外，scavenge manifold的设计可能因特定应用和性能要求而有显著差异。例如，在高性能赛车发动机中，scavenge manifold可能被设计为最大化气流并最小化阻力，从而实现更快的加速和更高的最高速度。相反，在燃油效率至关重要的应用中，scavenge manifold可能会针对更平滑的气流进行优化，减少阻力，提高整体效率。理解scavenge manifold背后的机械原理不仅对工程师重要，也为汽车爱好者和消费者提供了宝贵的见解。通过认识到这一组件在发动机性能中的作用，个人可以在选择车辆或改装发动机时做出更明智的决定。例如，某个希望调校其车辆以提升性能的人，可能会将升级scavenge manifold作为其整体策略的一部分。总之，scavenge manifold是发动机设计领域中一个至关重要的组件，特别是在二冲程发动机中。它在管理空气和废气流动方面的功能直接影响发动机的效率和性能。随着技术的不断发展，scavenge manifold的设计和应用也将不断演变，为更先进和环保的汽车解决方案铺平道路。理解这一概念不仅丰富了我们对汽车工程的知识，也帮助我们欣赏创造强大和高效机器所涉及的复杂性。