multiple propeller

简明释义

多螺旋桨

英英释义

例句

1.In marine applications, a multiple propeller 多旋翼 configuration can provide better thrust and efficiency.

在海洋应用中，多旋翼配置可以提供更好的推力和效率。

2.The drone is equipped with a multiple propeller 多旋翼 system for enhanced stability during flight.

这架无人机配备了一个多旋翼系统，以增强飞行时的稳定性。

3.The new model features a multiple propeller 多旋翼 setup that improves lift capacity significantly.

新型号采用了一个多旋翼配置，大大提高了升力能力。

4.Using a multiple propeller 多旋翼 design allows for better maneuverability in tight spaces.

使用多旋翼设计可以在狭小空间内实现更好的机动性。

5.The research team is developing a multiple propeller 多旋翼 vehicle for underwater exploration.

研究团队正在开发一种用于水下探测的多旋翼车辆。

作文

In the realm of aerodynamics and marine engineering, the concept of a multiple propeller is essential for understanding how various vehicles achieve propulsion. A multiple propeller system refers to the use of more than one propeller to generate thrust, which can significantly enhance the performance and efficiency of an aircraft or a vessel. This technology has been employed in various applications, from large cargo ships to advanced fighter jets, and its benefits are numerous.Firstly, employing a multiple propeller configuration can lead to improved maneuverability. For instance, in naval vessels, having multiple propellers allows for better control over the ship's direction and speed. Each propeller can be independently controlled, enabling the vessel to turn sharply or navigate through tight spaces with greater ease. This is particularly advantageous in military operations where agility is crucial.Moreover, a multiple propeller setup can enhance the overall thrust produced by the vehicle. When multiple propellers work in unison, they can create a larger volume of water displacement or air movement, resulting in greater propulsion power. This is especially important in larger aircraft, where the weight and size necessitate a more robust propulsion system. By using several propellers, engineers can distribute the load and optimize performance, leading to faster speeds and improved fuel efficiency.Another significant advantage of multiple propeller systems is redundancy. In aviation, for example, if one propeller fails, the remaining ones can still provide sufficient thrust to maintain flight. This redundancy is a critical safety feature that enhances the reliability of the aircraft. Similarly, in maritime applications, if one propeller encounters an issue, the vessel can still operate, allowing for safer navigation and reducing the risk of accidents at sea.The design of multiple propeller systems also allows for innovative configurations. For example, some modern aircraft utilize a combination of propellers and jet engines to maximize efficiency. This hybrid approach can lead to reduced fuel consumption and lower emissions, aligning with the growing emphasis on sustainability in transportation. Engineers are continuously exploring new materials and technologies to further improve the performance of multiple propeller systems, making them more efficient and environmentally friendly.In conclusion, the use of multiple propeller systems in both aviation and marine engineering represents a significant advancement in propulsion technology. The benefits of improved maneuverability, increased thrust, enhanced safety through redundancy, and innovative design options make this approach a preferred choice for many modern vehicles. As technology continues to evolve, we can expect to see even more sophisticated implementations of multiple propeller systems, driving the future of transportation towards greater efficiency and performance.

在空气动力学和海洋工程领域，"多螺旋桨"的概念对于理解各种交通工具如何实现推进至关重要。"多螺旋桨"系统是指使用多个螺旋桨来产生推力，这可以显著提高飞机或船只的性能和效率。这项技术已在各种应用中得到应用，从大型货船到先进的战斗机，其好处不胜枚举。首先，采用"多螺旋桨"配置可以提高机动性。例如，在海军舰艇中，多个螺旋桨的使用可以更好地控制船只的方向和速度。每个螺旋桨都可以独立控制，使得船只能够更灵活地转向或在狭小空间中航行。这在军事行动中尤其具有优势，因为灵活性至关重要。此外，"多螺旋桨"设置可以增强车辆产生的整体推力。当多个螺旋桨协同工作时，它们可以产生更大的水排量或空气运动，从而带来更强的推进力。这在较大型飞机中尤为重要，因为其重量和体积需要更强大的推进系统。通过使用多个螺旋桨，工程师可以分配负荷并优化性能，从而实现更快的速度和更高的燃油效率。"多螺旋桨"系统的另一个显著优势是冗余性。在航空领域，例如，如果一个螺旋桨发生故障，其余的仍然可以提供足够的推力以维持飞行。这种冗余性是一个关键的安全特性，增强了飞机的可靠性。类似地，在海洋应用中，如果一个螺旋桨遇到问题，船只仍然可以操作，从而提高安全导航并降低海上事故的风险。"多螺旋桨"系统的设计还允许创新的配置。例如，一些现代飞机利用螺旋桨和喷气发动机的组合来最大化效率。这种混合方法可以减少燃油消耗和降低排放，符合交通运输日益重视可持续发展的趋势。工程师们不断探索新的材料和技术，以进一步提高"多螺旋桨"系统的性能，使其更加高效和环保。总之，在航空和海洋工程中使用"多螺旋桨"系统代表了推进技术的重要进步。提高机动性、增加推力、通过冗余增强安全性以及创新设计选项的好处使这一方法成为许多现代车辆的首选。随着技术的不断发展，我们可以期待看到越来越复杂的"多螺旋桨"系统的实施，推动交通运输的未来朝着更高的效率和性能发展。