propulsive horse-power

简明释义

推进马力

英英释义

例句

1.The fishing boat's propulsive horse-power 推进马力 allows it to navigate through rough waters with ease.

这艘渔船的推进马力 推进马力使其能够轻松穿越波涛汹涌的水域。

2.The yacht's engine provides a maximum of propulsive horse-power 推进马力 that allows it to cruise smoothly across the ocean.

这艘游艇的引擎提供最高的推进马力 推进马力，使其能够在海洋上平稳航行。

3.The ship's performance is largely dependent on its propulsive horse-power 推进马力, which determines how fast it can travel.

船只的性能在很大程度上取决于其推进马力 推进马力，这决定了它的旅行速度。

4.Engineers calculated the propulsive horse-power 推进马力 needed for the new aircraft design to ensure it could take off efficiently.

工程师计算了新飞机设计所需的推进马力 推进马力，以确保其能有效起飞。

5.In order to achieve higher speeds, the race car was modified to increase its propulsive horse-power 推进马力 significantly.

为了达到更高的速度，这辆赛车经过改装，以显著增加其推进马力 推进马力。

作文

In the world of engineering and mechanics, the term propulsive horse-power refers to the measure of the effective power that is available to propel a vehicle or vessel forward. This concept is crucial in various fields, including automotive engineering, aviation, and marine technology. Understanding propulsive horse-power is essential for designing efficient engines and optimizing performance. It allows engineers to calculate how much energy is required to move a certain mass at a specific speed, which is fundamental in developing vehicles that are both powerful and fuel-efficient.When we think about propulsive horse-power, we must also consider the factors that influence it. The design of the engine, the type of fuel used, and the weight of the vehicle all play significant roles in determining how much propulsive power can be generated. For instance, a lightweight sports car may utilize its propulsive horse-power more effectively than a heavier SUV, allowing it to accelerate faster and achieve higher speeds. This efficiency is not only about raw power but also about how well that power is translated into motion.Moreover, the relationship between propulsive horse-power and speed is not linear. As a vehicle accelerates, it encounters increased air resistance and friction, which means that more power is required to maintain higher speeds. Therefore, engineers must carefully balance the propulsive horse-power output of an engine with the aerodynamic design of the vehicle to ensure optimal performance across various speeds.In the maritime industry, propulsive horse-power is equally important. Ships and boats rely on this measure to determine how efficiently they can travel through water. The design of the hull, the type of propulsion system, and even the water conditions all affect the propulsive horse-power needed for a vessel to move. For example, a ship designed for long-distance travel may prioritize fuel efficiency over speed, while a racing yacht might focus on maximizing propulsive horse-power to achieve the fastest possible times.In aviation, propulsive horse-power is critical for ensuring that aircraft can take off, climb, and cruise efficiently. The thrust produced by jet engines is often measured in terms of propulsive horse-power, and understanding this metric helps engineers design aircraft that can carry heavier loads over longer distances without compromising performance. The advancements in technology have led to the creation of more efficient engines that produce greater propulsive horse-power while consuming less fuel, which is a key consideration in today’s environmentally conscious world.In conclusion, propulsive horse-power is a vital concept in the fields of engineering and mechanics. It encompasses the power required to move vehicles and vessels effectively, taking into account various factors such as design, weight, and environmental conditions. By mastering the principles behind propulsive horse-power, engineers can innovate and create more efficient, powerful, and environmentally friendly modes of transportation. As technology continues to evolve, the importance of understanding and optimizing propulsive horse-power will only grow, paving the way for future advancements in mobility and transportation efficiency.

在工程和机械的世界中，术语propulsive horse-power指的是可用于推动车辆或船只前进的有效功率的测量。这个概念在汽车工程、航空和海洋技术等多个领域至关重要。理解propulsive horse-power对于设计高效的发动机和优化性能是必不可少的。它使工程师能够计算出在特定速度下移动一定质量所需的能量，这在开发既强大又节能的车辆时是基础。当我们想到propulsive horse-power时，我们还必须考虑影响它的因素。发动机的设计、所用燃料的类型以及车辆的重量都在决定可以产生多少推进功率方面发挥着重要作用。例如，一辆轻型跑车可能比一辆更重的SUV更有效地利用其propulsive horse-power，使其加速更快并达到更高的速度。这种效率不仅仅是关于原始动力，还涉及到如何将这种动力转化为运动。此外，propulsive horse-power与速度之间的关系并不是线性的。随着车辆加速，它会遇到增加的空气阻力和摩擦，这意味着需要更多的动力来维持更高的速度。因此，工程师必须仔细平衡发动机的propulsive horse-power输出与车辆的空气动力学设计，以确保在各种速度下的最佳性能。在海事行业，propulsive horse-power同样重要。船只和船舶依赖这一测量来确定它们在水中旅行的效率。船体的设计、推进系统的类型甚至水域条件都会影响船只所需的propulsive horse-power。例如，设计用于长途旅行的船只可能优先考虑燃油效率而非速度，而竞赛游艇则可能专注于最大化propulsive horse-power以实现最快的时间。在航空领域，propulsive horse-power对于确保飞机能够高效起飞、爬升和巡航至关重要。喷气发动机产生的推力通常以propulsive horse-power来衡量，理解这一指标有助于工程师设计能够在不妥协性能的情况下承载更重负荷的飞机。技术的进步导致了更高效的发动机的创造，这些发动机在消耗更少燃料的同时产生更大的propulsive horse-power，这是当今环保意识日益增强的世界中的关键考虑因素。总之，propulsive horse-power是工程和机械领域的重要概念。它涵盖了有效移动车辆和船舶所需的功率，同时考虑了设计、重量和环境条件等各种因素。通过掌握propulsive horse-power背后的原理，工程师可以创新并创造出更高效、更强大和更环保的交通工具。随着技术的不断发展，理解和优化propulsive horse-power的重要性只会增加，为未来在移动性和运输效率方面的进步铺平道路。