double bank engine
简明释义
双排发动机
英英释义
例句
1.With a double bank engine, the vehicle can achieve higher speeds on the highway.
配备双缸发动机的车辆在高速公路上可以达到更高的速度。
2.For high-performance racing, many teams prefer a double bank engine for its power output.
在高性能赛车中,许多车队更喜欢使用双缸发动机,因为它的动力输出更强。
3.The mechanic explained that a double bank engine requires more complex maintenance than a standard engine.
机械师解释说,双缸发动机的维护比标准发动机更复杂。
4.The new model of the car features a double bank engine, which significantly improves fuel efficiency.
这款新车型配备了一个双缸发动机,大大提高了燃油效率。
5.The double bank engine technology has revolutionized the automotive industry by enhancing performance.
双缸发动机技术通过提升性能彻底改变了汽车工业。
作文
In the world of engineering and mechanics, various terms and concepts are used to describe different types of machinery and their functions. One such term that may not be familiar to everyone is the double bank engine. Understanding this term requires a look into its components and applications in various fields. A double bank engine refers to an engine configuration where two banks of cylinders are arranged in parallel. This design is commonly found in V-type engines, which are widely used in automobiles and aircraft due to their compact size and powerful output.The significance of the double bank engine lies in its ability to produce higher power while maintaining a relatively smaller footprint. By arranging the cylinders in two banks, engineers can optimize the engine's performance, allowing for more efficient combustion and better torque delivery. This design is particularly advantageous in high-performance vehicles where power-to-weight ratio is crucial.Moreover, the double bank engine configuration has implications beyond just performance. It also affects the engine's weight distribution and balance, which are critical factors in vehicle dynamics. A well-balanced engine can lead to improved handling and stability, making it essential for sports cars and racing vehicles. Additionally, the double bank engine design can contribute to smoother operation, as the forces generated by the cylinders can counteract each other, reducing vibrations and noise.However, the complexity of a double bank engine also presents challenges. The arrangement of two banks of cylinders requires careful engineering to ensure proper cooling, lubrication, and maintenance access. This complexity can lead to increased manufacturing costs and potential difficulties in servicing the engine. Despite these challenges, the benefits often outweigh the drawbacks, especially in applications where performance is paramount.In recent years, the automotive industry has seen a trend towards downsizing engines while maintaining or increasing power output. Turbocharging and direct fuel injection technologies have complemented the double bank engine design, allowing manufacturers to create smaller, more efficient engines without sacrificing performance. This shift reflects a growing emphasis on sustainability and fuel efficiency in modern engineering practices.In conclusion, the double bank engine is a fascinating example of how engineering principles are applied to achieve specific performance goals. Its unique configuration allows for enhanced power output and efficiency, while also posing certain challenges in design and maintenance. As technology continues to evolve, the double bank engine will likely remain an important component in the pursuit of high-performance machinery, driving innovation and progress in the field of engineering.Understanding terms like double bank engine not only enriches our vocabulary but also deepens our appreciation for the complexities involved in mechanical design. Whether one is an aspiring engineer or simply a car enthusiast, grasping the significance of such concepts can lead to a greater understanding of how machines operate and the innovations that continue to shape our world.
在工程和机械的世界中,使用各种术语和概念来描述不同类型的机械及其功能。其中一个可能并不为所有人所熟悉的术语是双缸发动机。理解这个术语需要关注它的组成部分及其在各个领域的应用。双缸发动机指的是一种发动机配置,其中两个气缸组并排排列。这种设计通常出现在V型发动机中,这些发动机因其紧凑的尺寸和强大的输出而被广泛应用于汽车和飞机。双缸发动机的重要性在于它能够在保持相对较小的占地面积的同时产生更高的功率。通过将气缸安排在两个气缸组中,工程师可以优化发动机的性能,从而实现更高效的燃烧和更好的扭矩输出。这种设计在高性能车辆中尤为有利,因为功率与重量比至关重要。此外,双缸发动机配置还影响发动机的重量分布和平衡,这是车辆动态中的关键因素。一个平衡良好的发动机可以改善操控性和稳定性,这对于跑车和赛车来说至关重要。此外,双缸发动机的设计可以减少气缸产生的力之间的振动和噪音,从而实现更平稳的运行。然而,双缸发动机的复杂性也带来了挑战。两个气缸组的排列需要精心设计,以确保适当的冷却、润滑和维护通道。这种复杂性可能导致制造成本增加以及在维修发动机时遇到潜在困难。尽管存在这些挑战,但在性能至关重要的应用中,优势往往超过缺点。近年来,汽车行业出现了一个趋势,即在保持或增加功率输出的同时缩小发动机尺寸。涡轮增压和直喷技术与双缸发动机设计相辅相成,使制造商能够创造出更小、更高效的发动机,而不会牺牲性能。这一转变反映了现代工程实践中对可持续性和燃油效率日益重视。总之,双缸发动机是工程原理如何应用于实现特定性能目标的一个迷人例子。其独特的配置允许增强的功率输出和效率,同时在设计和维护上也面临某些挑战。随着技术的不断发展,双缸发动机将可能在追求高性能机械的过程中继续成为重要组成部分,推动工程领域的创新和进步。理解像双缸发动机这样的术语不仅丰富了我们的词汇,而且加深了我们对机械设计复杂性的欣赏。无论是有志于成为工程师的人还是仅仅是汽车爱好者,掌握这些概念的重要性都能使我们更深入了解机器的运作方式以及不断塑造我们世界的创新。
