thrust horse-power

简明释义

推力马力

英英释义

例句

1.The fighter jet's performance is measured in thrust horse-power, which indicates its ability to generate propulsion.

战斗机的性能以推力马力来衡量，这表示其产生推进力的能力。

2.Engineers often calculate the thrust horse-power of a rocket to ensure it can reach orbit.

工程师通常计算火箭的推力马力以确保它能够进入轨道。

3.In the automotive industry, thrust horse-power helps compare the efficiency of different engine designs.

在汽车行业，推力马力有助于比较不同发动机设计的效率。

4.A higher thrust horse-power rating usually means better acceleration for a vehicle.

更高的推力马力等级通常意味着车辆的加速性能更好。

5.The specifications for the new aircraft highlight its thrust horse-power to attract potential buyers.

新飞机的规格强调其推力马力以吸引潜在买家。

作文

In the field of engineering and aviation, the term thrust horse-power is a critical concept that often comes up when discussing the performance of jet engines and rocket propulsion systems. To fully grasp what thrust horse-power means, we need to break it down into its components. The word 'thrust' refers to the force that propels an object forward, while 'horse-power' is a unit of measurement that quantifies the power output of an engine. Therefore, thrust horse-power can be understood as the amount of power generated by an engine to produce thrust, which is essential for overcoming drag and achieving flight or movement. Understanding thrust horse-power is particularly important in the design and analysis of aircraft and spacecraft. Engineers must calculate the required thrust horse-power to ensure that an aircraft can take off, climb, cruise, and land safely. For instance, during takeoff, an aircraft needs to generate enough thrust to lift off the ground, which directly correlates with the thrust horse-power produced by its engines. If the thrust horse-power is insufficient, the aircraft may fail to become airborne, leading to potential disasters.Moreover, thrust horse-power plays a vital role in optimizing fuel efficiency. By analyzing the relationship between thrust and power, engineers can fine-tune engine performance to maximize efficiency while minimizing fuel consumption. This is especially significant in today's world, where environmental concerns and the rising cost of fuel demand more sustainable practices in aviation. In addition to aviation, thrust horse-power is also relevant in marine engineering. Ships and submarines rely on engines that produce thrust to navigate through water. Understanding the thrust horse-power of these vessels helps engineers design more efficient propulsion systems that can handle various maritime challenges, such as currents and waves. To illustrate the importance of thrust horse-power, consider the example of a fighter jet. These aircraft are designed for speed and agility, requiring high levels of thrust horse-power to perform complex maneuvers. The engines of a fighter jet are engineered to provide maximum thrust-to-weight ratio, allowing the aircraft to accelerate rapidly and maintain control at high speeds. Without sufficient thrust horse-power, these jets would struggle to achieve their intended performance, making them less effective in combat situations.In conclusion, thrust horse-power is an essential measurement in both aviation and marine engineering, representing the power needed to generate thrust for movement. Understanding this concept allows engineers to design safer, more efficient vehicles that meet the demands of modern travel and transportation. As technology continues to advance, the significance of thrust horse-power will only grow, underscoring its importance in the fields of engineering and aerospace. By mastering the intricacies of thrust horse-power, we can pave the way for innovations that enhance our capabilities in air and sea travel, ultimately contributing to a more connected and efficient world.

在工程和航空领域，术语推力马力是一个关键概念，常常在讨论喷气发动机和火箭推进系统的性能时出现。要充分理解推力马力的含义，我们需要将其分解为几个组成部分。“推力”一词指的是推动物体向前的力量，而“马力”是量化发动机功率输出的测量单位。因此，推力马力可以理解为发动机产生推力所需的功率，这对于克服阻力并实现飞行或移动至关重要。理解推力马力在飞机和航天器的设计与分析中尤为重要。工程师必须计算所需的推力马力，以确保飞机能够安全起飞、爬升、巡航和着陆。例如，在起飞过程中，飞机需要产生足够的推力以离开地面，这直接与其发动机产生的推力马力相关。如果推力马力不足，飞机可能无法升空，从而导致潜在的灾难。此外，推力马力在优化燃油效率方面也发挥着重要作用。通过分析推力与功率之间的关系，工程师可以微调发动机性能，以最大限度地提高效率，同时减少燃料消耗。在当今这个环境问题和燃料成本上升要求更可持续实践的世界中，这一点尤其重要。除了航空，推力马力在海洋工程中也同样重要。船舶和潜艇依靠产生推力的发动机在水中导航。理解这些船只的推力马力有助于工程师设计更高效的推进系统，以应对各种海洋挑战，如水流和波浪。为了说明推力马力的重要性，可以考虑战斗机的例子。这些飞机设计用于速度和灵活性，需要高水平的推力马力来执行复杂的机动。战斗机的发动机被设计成提供最大的推重比，使飞机能够快速加速并在高速下保持控制。如果没有足够的推力马力，这些战斗机将难以达到预期的性能，使它们在战斗情况下的有效性降低。总之，推力马力是在航空和海洋工程中至关重要的测量，代表了产生运动所需的推力功率。理解这一概念使工程师能够设计出更安全、更高效的交通工具，以满足现代旅行和运输的需求。随着技术的不断进步，推力马力的重要性只会增加，突显其在工程和航空航天领域的意义。通过掌握推力马力的复杂性，我们可以为增强我们在空中和海洋旅行能力的创新铺平道路，最终促进一个更加互联和高效的世界。