thrust horse-power
简明释义
推进马力
英英释义
例句
1.When calculating the performance of a rocket, engineers often focus on the thrust horse-power to ensure it can lift off successfully.
在计算火箭性能时,工程师通常关注推力马力,以确保其能够成功发射。
2.In marine applications, the thrust horse-power of a ship's engine determines its ability to navigate through rough waters.
在海洋应用中,船舶发动机的推力马力决定了其在恶劣水域中的航行能力。
3.The new jet engine produces a remarkable amount of thrust horse-power, allowing the aircraft to reach high speeds quickly.
新型喷气发动机产生了显著的推力马力,使飞机能够快速达到高速度。
4.To maximize performance, the racing team upgraded their car's engine to increase its thrust horse-power.
为了最大化性能,赛车队升级了他们的汽车发动机,以提高其推力马力。
5.The thrust horse-power of this model is significantly higher than its predecessor, making it more efficient for heavy lifting.
该型号的推力马力显著高于其前身,使其在重物提升方面更为高效。
作文
In the world of aviation and aerospace engineering, understanding the concept of thrust horse-power is essential for both professionals and enthusiasts. thrust horse-power refers to a measurement that combines the thrust produced by an engine with the speed at which the aircraft is moving. This metric plays a critical role in determining the performance and efficiency of various aircraft, from commercial airliners to military jets.To grasp the significance of thrust horse-power, one must first understand its components. Thrust is the force that propels an aircraft forward, generated by engines, whether they are jet engines or propellers. On the other hand, the speed of the aircraft influences how effectively this thrust can be converted into motion. The relationship between these two elements is crucial; simply having a powerful engine is not enough if the aircraft cannot efficiently utilize that power at different speeds.Calculating thrust horse-power involves a straightforward formula: it is the product of thrust (measured in pounds or newtons) and the velocity of the aircraft (measured in miles per hour or meters per second), divided by a constant factor to convert the units appropriately. This calculation provides engineers with a standardized way to assess the performance capabilities of an aircraft under various conditions.The importance of thrust horse-power becomes evident when evaluating different aircraft designs. For instance, a fighter jet designed for high-speed maneuvers will have a significantly different thrust horse-power requirement compared to a cargo plane that prioritizes fuel efficiency over speed. Engineers must consider the intended use of the aircraft, as well as environmental factors such as altitude and air density, which can affect both thrust and speed.Moreover, advancements in technology have led to innovations in engine design and materials, allowing for more efficient engines that produce greater thrust horse-power without increasing weight. This has been particularly important in the development of modern commercial jets, where fuel efficiency is a key concern. Airlines are constantly seeking ways to reduce operational costs, and understanding thrust horse-power is a vital part of achieving that goal.In conclusion, thrust horse-power is a fundamental concept in aviation that encapsulates the relationship between thrust and speed. It serves as a critical indicator of an aircraft's performance capabilities and helps engineers make informed decisions during the design and operational phases. As technology continues to evolve, so too will our understanding of thrust horse-power, leading to even more efficient and capable aircraft in the future.
在航空和航天工程的世界中,理解“推力马力”这一概念对专业人士和爱好者来说都是至关重要的。“推力马力”是指将发动机产生的推力与飞机移动速度相结合的测量。这一指标在确定各种飞机的性能和效率方面发挥着关键作用,从商业客机到军用喷气机。要理解“推力马力”的重要性,首先必须了解其组成部分。推力是推动飞机向前移动的力量,由发动机产生,无论是喷气发动机还是螺旋桨。另一方面,飞机的速度影响着这种推力转换为运动的有效性。这两个元素之间的关系至关重要;仅仅拥有强大的发动机是不够的,如果飞机无法在不同速度下有效利用这种动力。计算“推力马力”涉及一个简单的公式:它是推力(以磅或牛顿为单位)与飞机速度(以每小时英里或每秒米为单位)的乘积,再除以一个常数以适当转换单位。这个计算为工程师提供了一种标准化的方法,以评估飞机在各种条件下的性能能力。“推力马力”的重要性在于评估不同飞机设计时变得显而易见。例如,设计用于高速机动的战斗机将具有与优先考虑燃油效率的货运飞机截然不同的“推力马力”需求。工程师必须考虑飞机的预期用途,以及高度和空气密度等环境因素,这些因素会影响推力和速度。此外,技术的进步导致了发动机设计和材料的创新,使得能够在不增加重量的情况下产生更高效的发动机,从而产生更大的“推力马力”。这在现代商业喷气机的发展中尤其重要,因为燃油效率是一个关键问题。航空公司不断寻求降低运营成本,而理解“推力马力”是实现这一目标的重要组成部分。总之,“推力马力”是航空中的一个基本概念,概括了推力与速度之间的关系。它作为飞机性能能力的关键指标,帮助工程师在设计和操作阶段做出明智的决策。随着技术的不断发展,我们对“推力马力”的理解也将不断深化,未来将出现更高效、更具能力的飞机。
