thrust horse power

简明释义

推进马力

英英释义

例句

1.The racing car's performance is heavily influenced by its thrust horse power 推力马力, which affects acceleration on the track.

赛车的性能受到其thrust horse power推力马力的重大影响，这会影响在赛道上的加速。

2.The jet engine produces a significant amount of thrust horse power 推力马力, allowing the aircraft to take off efficiently.

喷气发动机产生了大量的thrust horse power推力马力，使飞机能够高效起飞。

3.In marine applications, the thrust horse power 推力马力 of a ship's engine determines its speed and maneuverability.

在海洋应用中，船舶发动机的thrust horse power推力马力决定了其速度和机动性。

4.When designing a new drone, the engineers calculated the required thrust horse power 推力马力 to ensure it could lift off with its payload.

在设计新型无人机时，工程师计算了所需的thrust horse power推力马力以确保它能够带着有效载荷起飞。

5.To calculate the thrust horse power 推力马力 of a rocket, engineers consider both the thrust produced and the velocity of the exhaust.

为了计算火箭的thrust horse power推力马力，工程师们需要考虑产生的推力和排气的速度。

作文

In the world of aviation and aerospace engineering, understanding the concept of thrust horse power is crucial for both design and performance evaluation. Thrust horse power refers to the measure of the engine's ability to produce thrust, which is essential for propelling an aircraft forward. This measurement is particularly important in the context of jet engines, where the efficiency and power output can significantly impact flight performance. To put it simply, thrust horse power combines the concepts of thrust and horsepower, two fundamental metrics in the field of aerodynamics. Thrust itself is the force generated by the engines to move the aircraft, while horsepower is a unit of measurement for power, traditionally used in automotive contexts. When these two elements are combined, they provide a clearer picture of how effectively an aircraft can utilize its engine power to achieve flight.The formula for calculating thrust horse power is relatively straightforward. It involves taking the thrust produced by the engine, measured in pounds, and multiplying it by the speed of the aircraft, measured in miles per hour, then dividing by a constant factor. This calculation allows engineers to assess whether an aircraft has enough power to take off, climb, and maintain cruising speeds.One of the key aspects of thrust horse power is its application in comparing different aircraft designs. For instance, when evaluating a new fighter jet against a commercial airliner, engineers will look at the thrust horse power values to determine which aircraft can achieve better performance in terms of speed, altitude, and maneuverability. A higher thrust horse power value typically indicates a more powerful engine that can provide superior performance under various conditions.Moreover, thrust horse power plays a vital role in ensuring safety and efficiency during flight operations. Pilots and air traffic controllers must understand the limitations of an aircraft's thrust horse power when planning takeoffs and landings. For example, in adverse weather conditions or at high altitudes, the available thrust may be reduced, necessitating adjustments in flight plans. Understanding the dynamics of thrust horse power helps ensure that aircraft operate within safe parameters, thereby minimizing risks.In conclusion, thrust horse power is an essential concept in aviation that bridges the gap between thrust and power output. Its importance cannot be overstated, as it influences aircraft design, performance, and safety. By mastering this concept, engineers and pilots alike can contribute to the advancement of aerospace technology and improve the overall efficiency of air travel. As the industry continues to evolve, the understanding of thrust horse power will remain a cornerstone of aviation knowledge, driving innovations that enhance performance and safety in the skies.

在航空和航天工程的世界中，理解“推力马力”这一概念对于设计和性能评估至关重要。“推力马力”指的是发动机产生推力的能力的度量，这对于推动飞机向前飞行是必不可少的。这个测量在喷气发动机的背景下尤其重要，因为效率和功率输出会显著影响飞行性能。简单来说，“推力马力”结合了推力和马力这两个基本指标。在空气动力学领域，推力本身是由发动机产生的推动飞机的力量，而马力是传统上用于汽车领域的功率测量单位。当这两个元素结合在一起时，它们提供了一个更清晰的图景，说明飞机如何有效利用其发动机功率实现飞行。计算“推力马力”的公式相对简单。它涉及将发动机产生的推力（以磅为单位）乘以飞机的速度（以每小时英里为单位），然后除以一个常数。这一计算允许工程师评估飞机是否有足够的动力进行起飞、爬升和维持巡航速度。“推力马力”的一个关键方面是其在比较不同飞机设计中的应用。例如，当评估一架新型战斗机与一架商用客机时，工程师会查看“推力马力”值，以确定哪种飞机在速度、高度和机动性方面能够实现更好的性能。较高的“推力马力”值通常表明发动机更强大，能够在各种条件下提供卓越的性能。此外，“推力马力”在确保飞行操作的安全性和效率方面发挥着至关重要的作用。飞行员和空中交通管制员必须理解飞机“推力马力”的限制，以便在规划起飞和着陆时做出适当的调整。例如，在恶劣天气条件或高海拔情况下，可用推力可能会降低，从而需要调整飞行计划。理解“推力马力”的动态有助于确保飞机在安全参数内运行，从而最大限度地减少风险。总之，“推力马力”是航空领域的重要概念，桥接了推力和功率输出之间的差距。其重要性不容忽视，因为它影响着飞机设计、性能和安全。通过掌握这一概念，工程师和飞行员可以共同促进航空技术的进步，提高航空旅行的整体效率。随着行业的不断发展，对“推力马力”的理解将始终是航空知识的基石，推动提升飞行性能和安全性的创新。