hydraulically-driven transverse propeller

简明释义

液压驱动横向推进器

英英释义

例句

1.Engineers are exploring the benefits of a hydraulically-driven transverse propeller in underwater vehicles.

工程师们正在探讨在水下车辆中使用液压驱动横向螺旋桨的好处。

2.The fishing vessel is equipped with a hydraulically-driven transverse propeller for better control in tight spots.

这艘渔船配备了一个液压驱动横向螺旋桨，以便在狭窄区域更好地控制。

3.During the trials, the hydraulically-driven transverse propeller proved to be more efficient than traditional propellers.

在试验中，液压驱动横向螺旋桨的效率比传统螺旋桨更高。

4.The hydraulically-driven transverse propeller allows for precise positioning of the vessel during docking.

在靠泊过程中，液压驱动横向螺旋桨允许船只进行精确定位。

5.The new boat design features a hydraulically-driven transverse propeller that enhances maneuverability.

新船设计采用了一个液压驱动横向螺旋桨，提高了机动性。

作文

In recent years, the advancement of marine technology has led to the development of various innovative propulsion systems. One such system is the hydraulically-driven transverse propeller, which has gained popularity due to its efficiency and maneuverability. This type of propeller operates using hydraulic power to drive a set of blades that are oriented transversely, or sideways, to the direction of travel. The unique design allows for improved thrust generation and better control over the vessel's movement, especially in tight spaces. The hydraulically-driven transverse propeller is particularly beneficial in applications where traditional propellers may struggle. For instance, in tugboats or harbor vessels, the ability to change direction quickly and efficiently is crucial. The transverse orientation of the blades allows the vessel to pivot more easily, making it an ideal choice for docking maneuvers and navigating narrow channels. Furthermore, the hydraulic system provides a responsive and adjustable thrust output, enabling operators to fine-tune their vessel's performance based on specific operational needs.In addition to its maneuverability, the hydraulically-driven transverse propeller also offers advantages in terms of fuel efficiency. By optimizing the thrust produced and reducing drag, vessels equipped with this type of propeller can operate at lower speeds while maintaining effective propulsion. This not only leads to cost savings in fuel consumption but also contributes to reduced environmental impact, aligning with the industry's increasing focus on sustainability.However, the implementation of a hydraulically-driven transverse propeller system is not without its challenges. The complexity of hydraulic systems requires careful maintenance and monitoring to ensure reliable operation. Additionally, the initial installation costs may be higher compared to conventional propeller systems. Nevertheless, the long-term benefits often outweigh these drawbacks, making it a worthwhile investment for many maritime operators.As the demand for advanced maritime technology continues to grow, the hydraulically-driven transverse propeller represents a significant step forward in propulsion design. Its ability to enhance maneuverability, improve fuel efficiency, and reduce environmental impact positions it as a key player in the future of marine engineering. As more vessels adopt this innovative technology, we can expect to see further advancements and refinements that will continue to shape the landscape of maritime operations.In conclusion, the hydraulically-driven transverse propeller is a remarkable innovation in the field of marine propulsion. Its unique design and operational advantages make it an essential component for modern vessels, particularly in demanding environments. As the industry evolves, embracing such technologies will be vital for improving efficiency, sustainability, and overall performance in marine operations.

近年来，海洋技术的进步推动了各种创新推进系统的发展。其中一种系统是液压驱动横向螺旋桨，由于其效率和机动性而受到广泛欢迎。这种类型的螺旋桨使用液压动力驱动一组横向（或侧向）设置的叶片，朝着行进方向。独特的设计使得推进力产生得以改善，并且能够更好地控制船只的运动，尤其是在狭窄空间中。液压驱动横向螺旋桨在传统螺旋桨可能遇到困难的应用中尤其有益。例如，在拖船或港口船只中，快速有效地改变方向至关重要。叶片的横向取向使得船只能够更容易地旋转，使其成为停靠操作和导航狭窄通道的理想选择。此外，液压系统提供响应迅速且可调的推进输出，使操作员能够根据特定的操作需求微调船只的性能。除了机动性外，液压驱动横向螺旋桨在燃油效率方面也具有优势。通过优化产生的推进力并减少阻力，配备此类螺旋桨的船只可以在保持有效推进的同时以较低速度运行。这不仅导致燃料消耗的成本节约，还减少了环境影响，符合行业日益关注可持续发展的趋势。然而，实施液压驱动横向螺旋桨系统并非没有挑战。液压系统的复杂性需要仔细维护和监控，以确保可靠操作。此外，与传统螺旋桨系统相比，初始安装成本可能较高。然而，长期收益往往超过这些缺点，使其成为许多海事运营商值得投资的选择。随着对先进海洋技术的需求不断增长，液压驱动横向螺旋桨代表了推进设计的重要一步。其增强机动性、提高燃油效率和减少环境影响的能力使其成为海洋工程未来的关键角色。随着越来越多的船只采用这一创新技术，我们可以期待进一步的进步和改进，这将继续塑造海事运营的格局。总之，液压驱动横向螺旋桨是海洋推进领域的一项显著创新。其独特的设计和操作优势使其成为现代船只的重要组成部分，特别是在要求苛刻的环境中。随着行业的发展，拥抱这样的技术对于提高海洋运营的效率、可持续性和整体性能至关重要。