multi-screw vessel
简明释义
多螺旋桨船
英英释义
例句
1.The multi-screw vessel can navigate through ice-covered waters more effectively than single-screw vessels.
与单螺旋船相比,多螺旋船能更有效地在冰封水域航行。
2.The multi-screw vessel is particularly useful in shallow waters where traditional ships struggle.
在传统船只难以航行的浅水区,多螺旋船特别有用。
3.During the conference, experts discussed the advantages of the multi-screw vessel in modern shipping.
在会议上,专家们讨论了多螺旋船在现代航运中的优势。
4.The design of the multi-screw vessel allows for greater propulsion efficiency in maritime transport.
这种多螺旋船的设计使得海洋运输中的推进效率更高。
5.Engineers are testing a new type of multi-screw vessel to improve cargo capacity.
工程师们正在测试一种新型的多螺旋船以提高货物容量。
作文
In the world of maritime engineering, the design and functionality of vessels have evolved significantly over the years. Among the various types of ships, the multi-screw vessel plays a crucial role in enhancing navigational efficiency and operational capabilities. A multi-screw vessel is defined as a ship that is equipped with multiple propellers, which can be either side by side or arranged in a more complex configuration. This design allows for improved maneuverability, speed, and stability in various sea conditions.The primary advantage of a multi-screw vessel lies in its ability to distribute power more effectively across multiple propellers. This not only increases the thrust produced but also allows for better handling during turns and adverse weather conditions. For instance, a multi-screw vessel can pivot more easily than a single-screw vessel, making it ideal for operations in crowded ports or narrow channels. Additionally, having multiple screws means that if one propeller fails, the vessel can still maintain some level of operational capability, thereby enhancing safety at sea.Historically, the development of multi-screw vessels can be traced back to the early 20th century when naval architects began experimenting with different propulsion systems. The introduction of steam turbines and diesel engines facilitated the creation of more powerful and efficient vessels. As technology advanced, the advantages of using multiple screws became increasingly apparent, leading to their widespread adoption in both commercial and military applications.Today, multi-screw vessels are commonly used in various sectors, including cargo transport, fishing, and passenger services. For example, modern ferries often utilize this design to ensure quick and safe transit across busy waterways. Similarly, naval ships equipped with multiple propellers can achieve higher speeds and greater agility, making them more effective in combat scenarios.Moreover, the environmental impact of multi-screw vessels is a topic of growing concern. With the increasing emphasis on sustainability in maritime operations, engineers are continually seeking ways to optimize the efficiency of these vessels. Innovations such as hybrid propulsion systems and advanced hull designs are being integrated into multi-screw vessels to reduce fuel consumption and minimize emissions. Such advancements not only contribute to environmental preservation but also enhance the economic viability of operating these vessels.In conclusion, the multi-screw vessel represents a significant advancement in maritime technology, offering numerous benefits in terms of performance, safety, and environmental responsibility. As the maritime industry continues to evolve, the importance of multi-screw vessels will likely grow, paving the way for further innovations and improvements in ship design and operation. Understanding the intricacies of multi-screw vessels is essential for anyone interested in maritime engineering, as it highlights the ongoing quest for efficiency and effectiveness in navigating our oceans.
在海洋工程的世界中,船舶的设计和功能多年来发生了显著变化。在各种类型的船只中,多螺旋桨船舶在提高航行效率和操作能力方面发挥着至关重要的作用。多螺旋桨船舶被定义为配备有多个螺旋桨的船只,这些螺旋桨可以并排或以更复杂的配置排列。这种设计使得在各种海况下提高了机动性、速度和稳定性。多螺旋桨船舶的主要优势在于它能够更有效地将动力分布到多个螺旋桨上。这不仅增加了产生的推力,还允许在转弯和恶劣天气条件下更好地操控。例如,多螺旋桨船舶可以比单螺旋桨船舶更轻松地进行旋转,非常适合在拥挤的港口或狭窄的航道中操作。此外,拥有多个螺旋桨意味着如果一个螺旋桨发生故障,船舶仍然可以维持一定的操作能力,从而提高了海上的安全性。从历史上看,多螺旋桨船舶的发展可以追溯到20世纪初,当时海军建筑师开始尝试不同的推进系统。蒸汽涡轮机和柴油发动机的引入促进了更强大和高效的船舶的创建。随着技术的进步,使用多个螺旋桨的优势变得越来越明显,导致其在商业和军事应用中的广泛采用。如今,多螺旋桨船舶广泛应用于货物运输、渔业和客运等各个领域。例如,现代渡轮通常利用这种设计确保快速和安全地穿越繁忙的水域。同样,配备多个螺旋桨的海军舰艇可以实现更高的速度和更大的灵活性,使其在战斗场景中更有效。此外,多螺旋桨船舶的环境影响也是日益关注的话题。随着对海洋作业可持续性的日益重视,工程师们不断寻求优化这些船舶效率的方法。混合动力推进系统和先进的船体设计等创新正在被整合到多螺旋桨船舶中,以减少燃料消耗和最小化排放。这些进步不仅有助于环境保护,还有助于提高运营这些船舶的经济可行性。总之,多螺旋桨船舶代表了海洋技术的重要进步,在性能、安全性和环境责任方面提供了众多好处。随着海洋行业的不断发展,多螺旋桨船舶的重要性可能会增长,为船舶设计和操作的进一步创新和改进铺平道路。理解多螺旋桨船舶的复杂性对于任何对海洋工程感兴趣的人来说都是必不可少的,因为它突出了在航行我们的海洋时追求效率和有效性的持续探索。
