engine arrangement

简明释义

机器布置图

英英释义

例句

1.The aircraft's engine arrangement 发动机布置 allows for better aerodynamics.

这架飞机的发动机布置 engine arrangement 有助于更好的空气动力学性能。

2.The engine arrangement 发动机布置 in this car provides a smooth driving experience.

这辆车的发动机布置 engine arrangement 提供了平稳的驾驶体验。

3.Engineers are reviewing the engine arrangement 发动机布置 to enhance performance.

工程师们正在审查发动机布置 engine arrangement 以提升性能。

4.The engine arrangement 发动机布置 affects the vehicle's center of gravity.

发动机布置 engine arrangement 会影响车辆的重心。

5.In the new model, the engine arrangement 发动机布置 has been optimized for fuel efficiency.

在新型号中，发动机布置 engine arrangement 已经过优化以提高燃油效率。

作文

The term engine arrangement refers to the specific layout and configuration of engines in various types of vehicles, particularly in automobiles and aircraft. This arrangement is crucial as it affects not only the performance of the vehicle but also its safety, efficiency, and overall design. Understanding the different types of engine arrangement can provide insights into how vehicles operate and the engineering principles behind their design.In the automotive industry, there are several common types of engine arrangement. One of the most popular configurations is the inline engine, where cylinders are arranged in a straight line. This type of arrangement is known for its simplicity and compact design, making it a cost-effective choice for many manufacturers. However, inline engines may have limitations in terms of power output compared to other arrangements.Another common type of engine arrangement is the V-engine, where two banks of cylinders are arranged in a 'V' shape. This configuration allows for more cylinders to be packed into a smaller space, which can enhance power and torque. V-engines are often found in high-performance cars and larger vehicles, as they provide a good balance between power and size. The V8 engine, for example, is celebrated for its robust performance, making it a favorite among sports car enthusiasts.Moreover, the flat or boxer engine is another innovative engine arrangement. In this setup, cylinders lie flat on either side of the crankshaft, providing a lower center of gravity. This arrangement contributes to improved stability and handling, especially in sports cars and performance vehicles. Brands like Subaru and Porsche have successfully utilized this configuration to enhance their vehicle dynamics.In aviation, the concept of engine arrangement takes on a different dimension. Aircraft engines are typically mounted either on the wings or at the rear of the fuselage. The arrangement of engines in aircraft is critical for aerodynamic efficiency and safety. For instance, a twin-engine aircraft may have engines mounted on the wings for better stability and control, while a single-engine aircraft often has its engine mounted at the front of the fuselage for optimal thrust and balance.The choice of engine arrangement in both automotive and aviation applications is influenced by various factors, including the intended use of the vehicle, desired performance characteristics, and design constraints. Engineers must carefully consider these elements when designing a vehicle to ensure it meets safety standards and performance expectations.Ultimately, the engine arrangement plays a pivotal role in defining a vehicle's identity and capabilities. From fuel efficiency to power delivery, the way an engine is arranged can significantly impact the driving experience. As technology advances, we may see even more innovative engine arrangements that push the boundaries of performance and efficiency, leading to exciting developments in the automotive and aviation industries.In conclusion, understanding the concept of engine arrangement is essential for anyone interested in vehicle design and engineering. By exploring the various configurations and their implications, we gain a deeper appreciation for the complexity and ingenuity involved in creating modern vehicles. Whether it's an inline engine, a V-engine, or a flat engine, each engine arrangement offers unique advantages that contribute to the overall performance and functionality of the vehicle.

短语engine arrangement指的是各种类型的车辆，特别是汽车和飞机中发动机的特定布局和配置。这种安排至关重要，因为它不仅影响车辆的性能，还影响其安全性、效率和整体设计。理解不同类型的engine arrangement可以提供对车辆如何运作及其设计背后的工程原理的深入了解。在汽车工业中，有几种常见的engine arrangement。其中一种最流行的配置是直列发动机，其中气缸呈直线排列。这种类型的安排以其简单和紧凑的设计而闻名，使其成为许多制造商的成本效益选择。然而，与其他安排相比，直列发动机在功率输出方面可能有一定的局限性。另一种常见的engine arrangement是V型发动机，其中两个气缸组呈“V”形排列。这种配置允许在较小的空间内装入更多的气缸，从而增强功率和扭矩。V型发动机通常出现在高性能汽车和大型车辆中，因为它们在功率和体积之间提供了良好的平衡。例如，V8发动机因其强大的性能而受到赞誉，成为运动汽车爱好者的最爱。此外，平置或拳击发动机是另一种创新的engine arrangement。在这种设置中，气缸平放在曲轴的两侧，提供了更低的重心。这种安排有助于改善稳定性和操控性，尤其是在运动汽车和性能车辆中。像斯巴鲁和保时捷这样的品牌成功地利用了这种配置来增强其车辆的动态性能。在航空领域，engine arrangement的概念则具有不同的维度。飞机发动机通常安装在机翼上或机身后部。飞机中发动机的排列对于空气动力学效率和安全性至关重要。例如，双发飞机可能将发动机安装在机翼上，以获得更好的稳定性和控制，而单发飞机通常将其发动机安装在机身前部，以实现最佳推力和平衡。在汽车和航空应用中，engine arrangement的选择受到多种因素的影响，包括车辆的预期用途、所需的性能特征和设计限制。工程师在设计车辆时必须仔细考虑这些元素，以确保其符合安全标准和性能期望。最终，engine arrangement在定义车辆的身份和能力方面发挥着关键作用。从燃油效率到动力传递，发动机的排列方式可以显著影响驾驶体验。随着技术的进步，我们可能会看到更多创新的engine arrangements，推动性能和效率的边界，从而在汽车和航空工业中带来令人兴奋的发展。总之，理解engine arrangement的概念对于任何对车辆设计和工程感兴趣的人来说都是至关重要的。通过探索各种配置及其影响，我们可以更深刻地欣赏创造现代车辆所涉及的复杂性和独创性。无论是直列发动机、V型发动机还是平置发动机，每种engine arrangement都提供了独特的优势，这些优势有助于车辆的整体性能和功能。