side windage area

简明释义

侧面受风面积

英英释义

例句

1.The engineer calculated the total drag force by considering the side windage area 侧风阻力面积 of the vehicle.

工程师通过考虑车辆的侧风阻力面积 side windage area来计算总阻力。

2.When designing buildings, architects must consider the side windage area 侧风阻力面积 to ensure structural integrity.

在设计建筑时，建筑师必须考虑侧风阻力面积 side windage area以确保结构完整性。

3.Sailboats must be designed with a minimal side windage area 侧风阻力面积 to improve their speed and maneuverability.

帆船必须设计成最小化侧风阻力面积 side windage area以提高速度和机动性。

4.In high winds, the side windage area 侧风阻力面积 of the truck affects its stability on the road.

在大风中，卡车的侧风阻力面积 side windage area会影响其在道路上的稳定性。

5.The pilot adjusted the flight path to account for the side windage area 侧风阻力面积 during takeoff.

飞行员在起飞时调整飞行路径以考虑侧风阻力面积 side windage area。

作文

In the field of aerodynamics and engineering, the term side windage area refers to the surface area of an object that is exposed to wind coming from the side. This concept is particularly important in the design of vehicles, aircraft, and structures that must withstand lateral forces due to wind. Understanding the side windage area is crucial for engineers and designers because it directly affects the stability and performance of the object in windy conditions. For instance, when designing a car, engineers must consider how the side windage area will influence the vehicle's handling and fuel efficiency. A larger side windage area can result in greater wind resistance, which can negatively impact the car's speed and fuel consumption.Similarly, in aviation, the side windage area plays a significant role in flight dynamics. Aircraft are subjected to various forces during takeoff, landing, and cruising, and lateral winds can create challenges for pilots. By calculating the side windage area, engineers can ensure that the aircraft is designed to minimize adverse effects from side winds, thereby enhancing safety and performance. The importance of side windage area extends beyond vehicles and aircraft; it also applies to buildings and other structures. Architects must consider the side windage area when designing tall buildings to ensure they can withstand strong winds. A building with a large side windage area may require additional structural support to prevent swaying or even collapse during severe weather conditions. Moreover, understanding the side windage area can lead to innovations in design. For example, some modern vehicles incorporate aerodynamic features that reduce their side windage area, resulting in better fuel efficiency and improved handling. In the world of sports, athletes and equipment manufacturers also pay attention to this concept. Cyclists, for instance, strive to minimize their side windage area by adopting streamlined positions and using specially designed gear to enhance their performance against the wind. In conclusion, the term side windage area is a vital consideration across various fields, including automotive, aviation, architecture, and sports. By understanding and optimizing this area, professionals can improve the safety, efficiency, and performance of their designs. Whether it’s ensuring a car handles well in crosswinds, an aircraft maintains stability in flight, or a building stands firm against gusts, the implications of side windage area are far-reaching and significant. As technology advances, the methods for calculating and minimizing side windage area will likely continue to evolve, leading to even more efficient and resilient designs in the future.

在空气动力学和工程学领域，短语侧风面积指的是物体暴露于侧面风的表面积。这个概念在车辆、飞机和必须承受侧向风力的结构设计中尤为重要。理解侧风面积对于工程师和设计师至关重要，因为它直接影响物体在风条件下的稳定性和性能。例如，在设计汽车时，工程师必须考虑侧风面积如何影响车辆的操控性和燃油效率。较大的侧风面积可能导致更大的风阻，从而对汽车的速度和燃油消耗产生负面影响。同样，在航空领域，侧风面积在飞行动态中也起着重要作用。飞机在起飞、着陆和巡航过程中会受到各种力的作用，侧风可能给飞行员带来挑战。通过计算侧风面积，工程师可以确保飞机设计能够最小化侧风的不利影响，从而提高安全性和性能。侧风面积的重要性不仅限于车辆和飞机；它还适用于建筑物和其他结构。建筑师在设计高层建筑时必须考虑侧风面积，以确保它们能够抵御强风。具有较大侧风面积的建筑可能需要额外的结构支持，以防止在恶劣天气条件下摇摆甚至倒塌。此外，理解侧风面积还可以促使设计创新。例如，一些现代车辆采用空气动力学特征来减少其侧风面积，从而提高燃油效率和改善操控性。在体育界，运动员和装备制造商也关注这一概念。举例来说，骑自行车的人努力通过采取流线型姿势和使用专门设计的装备来最小化他们的侧风面积，以增强他们在风中的表现。总之，术语侧风面积在汽车、航空、建筑和体育等多个领域都是一个重要的考虑因素。通过理解和优化这一面积，专业人士可以提高他们设计的安全性、效率和性能。无论是确保汽车在侧风中良好操控、飞机在飞行中保持稳定，还是建筑在阵风中屹立不倒，侧风面积的影响深远而重要。随着技术的进步，计算和最小化侧风面积的方法可能会不断演变，从而在未来实现更高效和更具韧性的设计。