astern turbine

简明释义

倒车涡轮

英英释义

例句

1.An unexpected failure in the astern turbine caused delays in the voyage.

尾部涡轮机的意外故障导致航程延误。

2.The ship's speed was increased by adjusting the settings of the astern turbine.

通过调整尾部涡轮机的设置，船的速度得以提高。

3.The engineer conducted routine checks on the astern turbine to ensure it was functioning properly.

工程师对尾部涡轮机进行了例行检查，以确保其正常运转。

4.The design of the astern turbine allows for efficient propulsion even in rough seas.

该尾部涡轮机的设计使其即使在恶劣海况下也能高效推进。

5.During the storm, the crew relied heavily on the astern turbine for stability.

在风暴中，船员们非常依赖尾部涡轮机来保持稳定。

作文

In the world of marine engineering, the efficiency and performance of vessels are paramount. One of the significant components that contribute to a ship's propulsion system is the astern turbine. The term astern turbine refers to a type of turbine that is specifically designed to generate thrust in the backward direction, aiding in maneuverability and control of the vessel. This technology plays a crucial role in ensuring that ships can navigate safely, especially in tight spaces or during docking procedures.The functioning of an astern turbine is based on the principles of fluid dynamics. When water flows through the turbine blades, it creates a reaction force that propels the ship in the opposite direction. This is particularly useful when a vessel needs to reverse quickly or maintain its position against strong currents. For instance, tugboats often utilize astern turbines to assist larger ships in berthing or unberthing operations, showcasing their importance in maritime logistics.Moreover, the design of the astern turbine has evolved over the years, incorporating advanced materials and technologies to enhance performance and durability. Modern vessels may use multiple astern turbines to improve thrust and responsiveness, allowing for greater control during complex maneuvers. As the shipping industry continues to innovate, the role of astern turbines becomes increasingly vital, especially with the growing emphasis on eco-friendly practices. Many new designs focus on reducing fuel consumption and emissions, making them more sustainable options for marine propulsion.In addition to their practical applications, astern turbines also present interesting engineering challenges. Designers must consider factors such as hydrodynamics, material strength, and operational efficiency to create a turbine that meets the demands of modern shipping. Research into optimizing the performance of astern turbines is ongoing, with engineers exploring various configurations and technologies to push the boundaries of what is possible in marine propulsion.The importance of astern turbines extends beyond just propulsion; they also play a role in safety. In emergencies, the ability to quickly reverse a ship can prevent collisions and accidents. Therefore, having a reliable astern turbine system is essential for any vessel, especially those operating in congested waterways or adverse weather conditions.In conclusion, the astern turbine is a critical component of modern marine vessels, providing essential thrust and maneuverability. Its innovative design and engineering reflect the ongoing advancements in the field of marine technology. As the industry moves towards more sustainable practices, the astern turbine will continue to evolve, ensuring that ships remain efficient, safe, and environmentally friendly. Understanding the function and significance of the astern turbine is crucial for anyone involved in marine engineering or maritime operations. It not only highlights the complexities of ship design but also emphasizes the importance of continuous improvement in marine technology.

在海洋工程的世界中，船舶的效率和性能至关重要。推动系统的一个重要组成部分是astern turbine。术语astern turbine指的是一种专门设计用于向后产生推力的涡轮，有助于船舶的机动性和控制。这项技术在确保船舶能够安全航行方面发挥着至关重要的作用，特别是在狭窄空间或停靠程序中。astern turbine的工作原理基于流体动力学的原理。当水流通过涡轮叶片时，会产生一个反作用力，推动船舶朝相反方向移动。这在船舶需要快速倒退或在强流中保持位置时尤其有用。例如，拖船通常利用astern turbines来协助大型船舶停靠或离港，这展示了它们在海运物流中的重要性。此外，astern turbine的设计多年来不断演变，采用先进的材料和技术来增强性能和耐用性。现代船舶可能使用多个astern turbines来提高推力和响应能力，使其在复杂机动中具有更大的控制力。随着航运业的不断创新，astern turbines的角色变得越来越重要，特别是在日益重视环保的背景下。许多新设计专注于减少燃料消耗和排放，使其成为更可持续的海洋推进选项。除了实际应用之外，astern turbines还带来了有趣的工程挑战。设计师必须考虑水动力学、材料强度和操作效率等因素，以创建满足现代航运需求的涡轮。对优化astern turbines性能的研究正在进行，工程师们正在探索各种配置和技术，以推动海洋推进领域的可能性。astern turbines的重要性不仅仅体现在推进上；它们在安全方面也起着重要作用。在紧急情况下，快速倒退船舶的能力可以防止碰撞和事故。因此，任何船舶都必须配备可靠的astern turbine系统，尤其是在拥挤水道或恶劣天气条件下运营的船舶。总之，astern turbine是现代海洋船舶的关键组成部分，提供必要的推力和机动性。它的创新设计和工程反映了海洋技术领域的持续进步。随着行业向更可持续的实践迈进，astern turbine将继续发展，确保船舶保持高效、安全和环保。理解astern turbine的功能和意义对于任何参与海洋工程或海事操作的人来说都是至关重要的。这不仅突显了船舶设计的复杂性，还强调了在海洋技术中持续改进的重要性。