odd bladed propeller

简明释义

奇数桨叶螺旋桨

英英释义

例句

1.The odd bladed propeller on the drone allowed it to maneuver more effectively in tight spaces.

无人机上的奇特叶片螺旋桨使其在狭小空间内更有效地操控。

2.The designer explained that the odd bladed propeller was intended to improve fuel efficiency in specific flight conditions.

设计师解释说，奇特叶片螺旋桨旨在提高特定飞行条件下的燃油效率。

3.The engineer was puzzled by the performance of the aircraft equipped with an odd bladed propeller, which seemed to defy conventional aerodynamics.

工程师对这架装备了奇特叶片螺旋桨的飞机的性能感到困惑，这似乎违背了常规的空气动力学。

4.After examining the odd bladed propeller, the mechanics found that it had a higher thrust-to-weight ratio than traditional designs.

在检查奇特叶片螺旋桨后，机械师发现它的推重比高于传统设计。

5.During the test flight, the pilot noticed that the odd bladed propeller produced a unique sound that was different from standard models.

在试飞期间，飞行员注意到奇特叶片螺旋桨发出了与标准型号不同的独特声音。

作文

In the world of aerodynamics and engineering, the design of propellers plays a crucial role in determining the efficiency and performance of various types of aircraft. Among the many designs available, the concept of an odd bladed propeller (奇特叶片螺旋桨) stands out due to its unconventional structure. Typically, most propellers have a standard number of blades, usually two or three, which are symmetrically arranged around a central hub. However, the odd bladed propeller (奇特叶片螺旋桨) deviates from this norm by incorporating an unusual number of blades, which can be four, five, or even more, depending on the specific application and design goals.The primary advantage of using an odd bladed propeller (奇特叶片螺旋桨) is its ability to enhance thrust and improve efficiency under certain flight conditions. The unique arrangement of blades can lead to better airflow management, reducing turbulence and drag. This characteristic is particularly beneficial for specialized aircraft, such as drones and experimental planes, where performance is paramount.Moreover, the odd bladed propeller (奇特叶片螺旋桨) can also contribute to noise reduction. By optimizing the blade configuration, engineers can minimize the sound produced during operation. This is especially important in urban areas where noise pollution is a significant concern. As aviation technology continues to evolve, the demand for quieter and more efficient flying machines grows, making the exploration of designs like the odd bladed propeller (奇特叶片螺旋桨) increasingly relevant.However, designing an odd bladed propeller (奇特叶片螺旋桨) is not without its challenges. The complexity of the design often requires advanced computational fluid dynamics (CFD) simulations and extensive testing to ensure that the propeller performs optimally across various speeds and conditions. Engineers must carefully consider factors such as blade shape, pitch, and material to achieve the desired balance between performance and durability.In conclusion, the odd bladed propeller (奇特叶片螺旋桨) represents an innovative approach to propeller design that pushes the boundaries of traditional engineering. Its potential benefits in terms of thrust, efficiency, and noise reduction make it a compelling choice for future aircraft development. As technology progresses, we can expect to see more applications of this unique design in both commercial and recreational aviation, paving the way for a new era of flight that embraces creativity and innovation.

在空气动力学和工程学的世界中，螺旋桨的设计在决定各种类型飞机的效率和性能方面起着至关重要的作用。在众多可用设计中，奇特叶片螺旋桨（odd bladed propeller）的概念因其非常规结构而脱颖而出。通常，大多数螺旋桨具有标准数量的叶片，通常是两个或三个，这些叶片对称地排列在中央轴周围。然而，奇特叶片螺旋桨（odd bladed propeller）偏离了这一规范，通过结合不寻常数量的叶片，可以是四个、五个甚至更多，具体取决于特定的应用和设计目标。使用奇特叶片螺旋桨（odd bladed propeller）的主要优点是其在特定飞行条件下增强推力和提高效率的能力。叶片的独特排列可以改善气流管理，减少湍流和阻力。这一特性对于专用飞机，如无人机和实验飞机尤为有利，在这些飞机中，性能至关重要。此外，奇特叶片螺旋桨（odd bladed propeller）还可以有助于降低噪音。通过优化叶片配置，工程师可以最小化运行过程中产生的声音。这在城市地区尤其重要，因为噪音污染是一个重大问题。随着航空技术的不断发展，对更安静和更高效的飞行器的需求也在增长，这使得像奇特叶片螺旋桨（odd bladed propeller）这样的设计探索变得越来越相关。然而，设计奇特叶片螺旋桨（odd bladed propeller）并非没有挑战。设计的复杂性通常需要先进的计算流体动力学（CFD）模拟和广泛的测试，以确保螺旋桨在各种速度和条件下表现最佳。工程师必须仔细考虑叶片形状、桨距和材料等因素，以实现性能与耐用性之间的理想平衡。总之，奇特叶片螺旋桨（odd bladed propeller）代表了一种推动传统工程界限的创新螺旋桨设计方法。它在推力、效率和噪音降低方面的潜在好处使其成为未来飞机发展的引人注目的选择。随着技术的进步，我们可以期待在商业和休闲航空中看到这种独特设计的更多应用，为拥抱创造力和创新的飞行新时代铺平道路。