hydraulic propeller

简明释义

喷水推进器

英英释义

例句

1.For better maneuverability, the yacht was equipped with a dual hydraulic propeller 液压螺旋桨 system.

为了更好的机动性，这艘游艇配备了双hydraulic propeller液压螺旋桨系统。

2.The hydraulic propeller 液压螺旋桨 allows for smoother transitions between speeds.

这款hydraulic propeller液压螺旋桨使得速度之间的过渡更加平滑。

3.During the test run, the hydraulic propeller 液压螺旋桨 showed remarkable performance in rough waters.

在测试运行中，hydraulic propeller液压螺旋桨在波涛汹涌的水域表现出色。

4.The engineer explained how the hydraulic propeller 液压螺旋桨 operates using fluid dynamics.

工程师解释了hydraulic propeller液压螺旋桨如何利用流体动力学运作。

5.The new boat design features a state-of-the-art hydraulic propeller 液压螺旋桨 that improves fuel efficiency.

新船的设计采用了一种最先进的hydraulic propeller液压螺旋桨，提高了燃油效率。

作文

In recent years, the advancements in marine technology have led to the development of various propulsion systems, one of which is the hydraulic propeller. The hydraulic propeller (液压螺旋桨) operates using hydraulic fluid to create motion, offering several advantages over traditional mechanical propellers. This innovative design utilizes the principles of hydraulics to convert fluid pressure into rotational motion, allowing for smoother and more efficient operation in various aquatic environments.One of the primary benefits of the hydraulic propeller is its ability to provide precise control over speed and direction. In many applications, such as in marine vessels or underwater vehicles, the need for agility and responsiveness is crucial. The hydraulic propeller allows operators to make quick adjustments, enhancing maneuverability in tight spaces or during complex navigation tasks.Moreover, the efficiency of the hydraulic propeller is notable. Traditional propellers can suffer from cavitation, where vapor bubbles form and collapse, leading to a loss of thrust and potential damage. However, the hydraulic propeller minimizes this issue due to its unique design and operational mechanism. By utilizing hydraulic pressure, it maintains optimal performance even under challenging conditions, making it a reliable choice for various marine applications.Environmental considerations are becoming increasingly important in modern engineering, and the hydraulic propeller addresses these concerns effectively. Its design often results in reduced noise pollution and lower emissions compared to conventional systems. This aspect is particularly significant for operations in sensitive marine ecosystems, where minimizing disturbances is essential for preserving wildlife and natural habitats.Additionally, the hydraulic propeller offers improved durability and maintenance advantages. The absence of complex mechanical components reduces wear and tear, leading to longer service intervals and decreased maintenance costs. This reliability makes it an attractive option for commercial shipping, recreational boating, and underwater exploration, where downtime can be costly and detrimental.As industries continue to seek innovative solutions for propulsion, the hydraulic propeller stands out as a promising technology. Its combination of efficiency, control, and environmental friendliness positions it well for future developments in marine engineering. Researchers and engineers are actively exploring new materials and designs to further enhance the capabilities of hydraulic propellers, potentially leading to even greater advancements in the field.In conclusion, the hydraulic propeller (液压螺旋桨) represents a significant leap forward in propulsion technology. With its unique advantages, including enhanced maneuverability, efficiency, and environmental sustainability, it is paving the way for the next generation of marine vessels. As we continue to innovate and push the boundaries of what is possible, the hydraulic propeller will undoubtedly play a vital role in shaping the future of marine transportation and exploration.

近年来，海洋技术的进步导致了各种推进系统的发展，其中之一就是液压螺旋桨。液压螺旋桨（hydraulic propeller）利用液压流体来产生运动，相较于传统机械螺旋桨，提供了多个优点。这种创新设计利用液压原理将液体压力转化为旋转运动，从而在各种水域中实现更平滑和更高效的运作。液压螺旋桨的主要好处之一是能够精确控制速度和方向。在许多应用中，例如在海洋船只或水下车辆中，对敏捷性和响应性的需求至关重要。液压螺旋桨允许操作员快速调整，增强了在狭窄空间或复杂导航任务中的机动性。此外，液压螺旋桨的效率也是显著的。传统螺旋桨可能会遭受气蚀现象，即蒸汽气泡形成并崩溃，导致推力损失和潜在损坏。然而，由于其独特的设计和操作机制，液压螺旋桨最大限度地减少了这个问题。通过利用液压压力，它即使在困难条件下也能保持最佳性能，使其成为各种海洋应用的可靠选择。环境因素在现代工程中变得越来越重要，而液压螺旋桨有效地解决了这些问题。其设计通常导致比传统系统减少噪音污染和排放。这一点在敏感的海洋生态系统中尤为重要，在这些地方，尽量减少干扰对于保护野生动物和自然栖息地至关重要。此外，液压螺旋桨还提供了更好的耐用性和维护优势。由于缺少复杂的机械部件，磨损和撕裂减少，导致更长的服务间隔和降低的维护成本。这种可靠性使其成为商业航运、休闲航行和水下探测的吸引选择，因为停机时间可能是昂贵且有害的。随着各行业不断寻求创新的推进解决方案，液压螺旋桨作为一项有前途的技术脱颖而出。其高效、控制和环保的结合使其在海洋工程的未来发展中占据了良好的位置。研究人员和工程师正在积极探索新材料和设计，以进一步增强液压螺旋桨的能力，可能会导致该领域更大的进步。总之，液压螺旋桨（hydraulic propeller）代表了推进技术的一次重大飞跃。凭借其独特的优势，包括增强的机动性、效率和环境可持续性，它正在为下一代海洋船只铺平道路。随着我们继续创新并推动可能性的边界，液压螺旋桨无疑将在塑造海洋运输和探索的未来中扮演重要角色。