speed of advance of the propeller

简明释义

螺旋桨的前进速度

英英释义

例句

1.During the test, we recorded the speed of advance of the propeller 螺旋桨的推进速度 at various RPMs.

在测试过程中，我们记录了不同转速下的螺旋桨的推进速度螺旋桨的推进速度。

2.The speed of advance of the propeller 螺旋桨的推进速度 is crucial for determining the vessel's overall performance.

对于确定船舶的整体性能来说，螺旋桨的推进速度螺旋桨的推进速度至关重要。

3.To improve maneuverability, we need to adjust the speed of advance of the propeller 螺旋桨的推进速度 in tight spaces.

为了提高机动性，我们需要在狭小空间中调整螺旋桨的推进速度螺旋桨的推进速度。

4.Engineers studied the speed of advance of the propeller 螺旋桨的推进速度 to enhance the design of the new vessel.

工程师们研究了螺旋桨的推进速度螺旋桨的推进速度，以改进新船的设计。

5.The captain adjusted the throttle to optimize the speed of advance of the propeller 螺旋桨的推进速度 for better fuel efficiency.

船长调整了油门，以优化螺旋桨的推进速度螺旋桨的推进速度，以提高燃油效率。

作文

The maritime industry has always been a cornerstone of global trade and transportation. One of the key components that ensure the efficiency and effectiveness of marine vessels is the propeller. Understanding the mechanics behind a propeller is crucial for engineers and sailors alike, particularly when it comes to the speed of advance of the propeller (螺旋桨的推进速度). This term refers to the distance a vessel moves forward for each complete revolution of its propeller. It is a vital factor that influences the overall performance of a ship, including its fuel efficiency, speed, and maneuverability.The speed of advance of the propeller (螺旋桨的推进速度) is determined by several variables, including the design of the propeller itself, the engine power, and the characteristics of the water in which the vessel operates. A well-designed propeller can significantly enhance the speed of advance of the propeller (螺旋桨的推进速度), allowing a ship to travel faster and more efficiently. Engineers often use advanced computational fluid dynamics to optimize propeller designs, ensuring that they can achieve the desired speed of advance of the propeller (螺旋桨的推进速度) while minimizing drag and maximizing thrust.Moreover, the speed of advance of the propeller (螺旋桨的推进速度) has a direct correlation with fuel consumption. A higher speed of advance typically means that a vessel can cover more distance using less fuel, which is not only economically beneficial but also environmentally friendly. As the world shifts towards more sustainable practices, understanding and optimizing the speed of advance of the propeller (螺旋桨的推进速度) becomes increasingly important. Shipbuilders and operators are now more focused on creating vessels that are not only fast but also fuel-efficient, taking into consideration the speed of advance of the propeller (螺旋桨的推进速度) as a critical parameter.In addition to performance, the speed of advance of the propeller (螺旋桨的推进速度) plays a significant role in navigation and safety. Vessels must maintain a certain speed to ensure they can maneuver effectively in various conditions, especially in congested waterways or during adverse weather. If the speed of advance of the propeller (螺旋桨的推进速度) is too low, it may hinder the vessel's ability to respond to navigational challenges, potentially leading to accidents or collisions.Furthermore, the relationship between the speed of advance of the propeller (螺旋桨的推进速度) and the ship's hull design cannot be overlooked. The hull shape affects how water flows around the vessel, impacting the efficiency of the propeller. A well-matched hull and propeller combination can lead to an optimal speed of advance of the propeller (螺旋桨的推进速度), enhancing overall vessel performance.In conclusion, the speed of advance of the propeller (螺旋桨的推进速度) is a fundamental concept in marine engineering that encompasses various aspects of vessel operation. From fuel efficiency to navigation safety, understanding this term is essential for anyone involved in the maritime industry. As technology continues to evolve, the focus on optimizing the speed of advance of the propeller (螺旋桨的推进速度) will remain a priority, ensuring that ships can operate effectively in an increasingly competitive and environmentally conscious world.

海洋产业一直是全球贸易和运输的基石。确保海洋船舶效率与有效性的关键组成部分之一就是螺旋桨。理解螺旋桨背后的机械原理对于工程师和水手来说至关重要，尤其是在涉及到螺旋桨的推进速度（speed of advance of the propeller）时。这个术语指的是船只在每次完整的螺旋桨转动中向前移动的距离。它是影响船舶整体性能的重要因素，包括燃油效率、速度和机动性。螺旋桨的推进速度（speed of advance of the propeller）由多个变量决定，包括螺旋桨本身的设计、发动机功率以及船舶操作的水域特性。设计良好的螺旋桨可以显著提高螺旋桨的推进速度（speed of advance of the propeller），使船舶能够更快、更高效地航行。工程师们经常使用先进的计算流体力学来优化螺旋桨设计，确保它们能够在最小化阻力和最大化推力的同时实现所需的螺旋桨的推进速度（speed of advance of the propeller）。此外，螺旋桨的推进速度（speed of advance of the propeller）与燃油消耗直接相关。较高的推进速度通常意味着船舶可以用更少的燃料覆盖更多的距离，这不仅在经济上有利，而且对环境友好。随着世界向更可持续的实践转变，理解和优化螺旋桨的推进速度（speed of advance of the propeller）变得愈加重要。造船商和运营商现在更加关注创造既快速又节能的船舶，考虑到螺旋桨的推进速度（speed of advance of the propeller）作为一个关键参数。除了性能外，螺旋桨的推进速度（speed of advance of the propeller）在导航和安全中也扮演着重要角色。船舶必须保持一定的速度，以确保它们能够在各种条件下有效机动，特别是在拥挤的水道或恶劣天气中。如果螺旋桨的推进速度（speed of advance of the propeller）过低，可能会妨碍船舶应对导航挑战的能力，潜在导致事故或碰撞。此外，螺旋桨的推进速度（speed of advance of the propeller）与船体设计之间的关系也不容忽视。船体形状影响水流绕过船舶的方式，从而影响螺旋桨的效率。匹配良好的船体和螺旋桨组合可以导致最佳的螺旋桨的推进速度（speed of advance of the propeller），提高整体船舶性能。总之，螺旋桨的推进速度（speed of advance of the propeller）是海洋工程中的一个基本概念，涵盖了船舶操作的各个方面。从燃油效率到导航安全，理解这个术语对于任何参与海洋产业的人来说都是必不可少的。随着技术的不断发展，优化螺旋桨的推进速度（speed of advance of the propeller）的关注将继续成为优先事项，确保船舶能够在日益竞争和环保意识增强的世界中有效运营。