screw horsepower

简明释义

螺旋桨马力

英英释义

例句

1.The yacht's screw horsepower 螺旋马力 rating is impressive, allowing it to cruise smoothly.

这艘游艇的screw horsepower 螺旋马力 评级令人印象深刻，使其能够平稳航行。

2.We need to calculate the screw horsepower 螺旋马力 to ensure the propeller is suitable for our needs.

我们需要计算screw horsepower 螺旋马力，以确保螺旋桨适合我们的需求。

3.This boat is designed to handle high screw horsepower 螺旋马力 for better speed and efficiency.

这艘船设计用于处理高screw horsepower 螺旋马力，以获得更好的速度和效率。

4.To maximize the screw horsepower 螺旋马力, we adjusted the gear ratios.

为了最大化screw horsepower 螺旋马力，我们调整了齿轮比。

5.The engine's performance improved significantly after we upgraded the screw horsepower 螺旋马力 system.

在我们升级了screw horsepower 螺旋马力 系统后，发动机的性能显著提高。

作文

In the world of engineering and mechanics, various terms are used to describe the efficiency and power of machines. One such term that often comes up in discussions about engines and mechanical systems is screw horsepower. This phrase refers to a specific measurement of power output in screw-type propulsion systems, commonly found in marine and aerospace applications. Understanding screw horsepower is essential for engineers and technicians who work with these systems, as it directly impacts performance and efficiency.To comprehend what screw horsepower entails, we first need to break down the components of the term. The word 'screw' pertains to the screw propeller, a type of propulsion device that converts rotational energy into thrust. These devices are widely used in ships, submarines, and even some aircraft due to their efficiency in moving through water and air. The term 'horsepower,' on the other hand, is a unit of measurement for power, traditionally used to quantify the output of engines and motors. When combined, screw horsepower specifically measures the effective power produced by a screw propeller under certain conditions.The significance of screw horsepower cannot be understated, especially in naval architecture and marine engineering. For instance, when designing a vessel, engineers must calculate the required screw horsepower to ensure that the ship can achieve its desired speed and maneuverability. This involves considering various factors such as the size and shape of the hull, the weight of the vessel, and the characteristics of the water it will navigate. By accurately determining the screw horsepower, engineers can optimize the design of the propulsion system, leading to improved fuel efficiency and reduced operational costs.Another critical aspect of screw horsepower is its role in performance testing. During sea trials, engineers measure the screw horsepower generated by a vessel’s propulsion system to assess its performance under real-world conditions. This data is invaluable for making adjustments to the engine or propeller design to enhance overall efficiency. Moreover, understanding how screw horsepower interacts with other variables, such as water currents and wind resistance, allows engineers to fine-tune their designs for optimal performance.In recent years, the importance of screw horsepower has grown even more significant due to the increasing focus on sustainability in marine transportation. As regulations become stricter regarding emissions and fuel consumption, engineers are tasked with finding innovative solutions to reduce the environmental impact of vessels. By optimizing screw horsepower and improving the efficiency of propulsion systems, the maritime industry can make strides toward greener operations.In conclusion, screw horsepower is a crucial concept in the fields of engineering and mechanics, particularly in marine and aerospace applications. It serves as a vital measurement of the power output of screw propellers, impacting everything from vessel design to performance testing. As the industry continues to evolve, understanding and optimizing screw horsepower will be essential for engineers seeking to enhance efficiency and meet environmental standards. Thus, mastering this term and its implications is not only beneficial but necessary for professionals in the field.

在工程和机械的世界中，使用各种术语来描述机器的效率和动力。其中一个常常出现在关于发动机和机械系统讨论中的术语是screw horsepower。这个短语指的是螺旋推进系统中特定的功率输出测量，这些系统通常用于海洋和航空应用。理解screw horsepower对于与这些系统合作的工程师和技术人员至关重要，因为它直接影响性能和效率。要理解screw horsepower所包含的内容，我们首先需要拆分这个术语的组成部分。“screw”这个词涉及到螺旋螺旋桨，这是一种将旋转能量转化为推力的推进装置。这些装置因其在水和空气中移动的效率而广泛用于船舶、潜艇甚至某些飞机。“horsepower”这个词则是功率的测量单位，传统上用于量化发动机和电动机的输出。当这两个词结合在一起时，screw horsepower特别测量在特定条件下螺旋桨产生的有效功率。screw horsepower的重要性不容小觑，尤其是在海军建筑和海洋工程中。例如，在设计船只时，工程师必须计算所需的screw horsepower，以确保船舶能够达到所需的速度和机动性。这涉及考虑多个因素，如船体的大小和形状、船舶的重量以及它将航行的水域的特性。通过准确确定screw horsepower，工程师可以优化推进系统的设计，从而提高燃油效率并降低运营成本。screw horsepower的另一个关键方面是它在性能测试中的作用。在海试期间，工程师测量船舶推进系统产生的screw horsepower，以评估其在现实条件下的性能。这些数据对调整发动机或螺旋桨设计以增强整体效率至关重要。此外，了解screw horsepower与其他变量（如水流和风阻）的相互作用，使工程师能够微调他们的设计，以实现最佳性能。近年来，随着海洋运输领域对可持续性关注的增加，screw horsepower的重要性变得更加显著。随着有关排放和燃料消耗的法规日益严格，工程师们被要求寻找创新解决方案以减少船舶的环境影响。通过优化screw horsepower并改善推进系统的效率，海事行业可以朝着更环保的操作迈出步伐。总之，screw horsepower是工程和机械领域，特别是在海洋和航空应用中一个至关重要的概念。它作为螺旋桨功率输出的重要测量，影响从船舶设计到性能测试的方方面面。随着行业的不断发展，理解和优化screw horsepower对寻求提高效率并满足环境标准的工程师来说将至关重要。因此，掌握这一术语及其含义不仅有益，而且对该领域的专业人士来说是必要的。