twin-screw and triple-rudder ship

简明释义

双车三舵船

英英释义

例句

1.The new cargo vessel is designed as a twin-screw and triple-rudder ship, ensuring better maneuverability in tight ports.

这艘新货船被设计为双螺旋桨和三舵船，确保在狭窄港口的更好机动性。

2.The design of a twin-screw and triple-rudder ship allows for greater speed and efficiency.

设计为双螺旋桨和三舵船能够提供更大的速度和效率。

3.Engineers have praised the performance of the twin-screw and triple-rudder ship during sea trials.

工程师们在海上试航中赞扬了双螺旋桨和三舵船的性能。

4.The twin-screw and triple-rudder ship can turn sharply, which is advantageous for naval operations.

这艘双螺旋桨和三舵船可以急转弯，这对于海军行动是有利的。

5.In heavy seas, the stability of the twin-screw and triple-rudder ship is significantly enhanced.

在大浪中，双螺旋桨和三舵船的稳定性显著增强。

作文

The design and engineering of ships have come a long way since the early days of maritime travel. Among the various types of vessels, the twin-screw and triple-rudder ship stands out due to its advanced maneuverability and efficiency. This type of ship is equipped with two propellers, or screws, which provide greater thrust and stability compared to single-screw designs. The addition of three rudders further enhances its ability to navigate through challenging waters, making it a preferred choice for many naval and commercial applications.One of the key advantages of a twin-screw and triple-rudder ship is its improved control in various sea conditions. The dual screws allow for better handling and the ability to make sharper turns. This is particularly beneficial in congested ports or narrow channels where precision is crucial. Additionally, the triple rudder system provides redundancy; if one rudder fails, the remaining ones can still maintain directional control. This feature is vital for safety and operational reliability, especially in adverse weather conditions.Moreover, the propulsion system of a twin-screw and triple-rudder ship is designed to optimize fuel efficiency. With two screws working in tandem, the ship can achieve higher speeds without consuming excessive fuel. This efficiency translates to lower operational costs, making it an attractive option for shipping companies looking to enhance their profitability while maintaining environmental standards.In terms of construction, building a twin-screw and triple-rudder ship requires advanced engineering techniques and materials. Shipbuilders must carefully consider the placement of the screws and rudders to ensure optimal performance. The hull design also plays a critical role in how well the ship interacts with water, affecting both speed and stability. As technology advances, shipbuilders are increasingly utilizing computer simulations to refine these designs, ensuring that new vessels meet the demands of modern maritime operations.The versatility of a twin-screw and triple-rudder ship makes it suitable for a wide range of missions. From cargo transport to research expeditions, these ships can be adapted to various roles. Their robust design allows them to operate in different environments, from calm seas to rough waters, making them invaluable assets for both commercial and governmental fleets.In conclusion, the twin-screw and triple-rudder ship represents a significant advancement in maritime engineering. Its unique combination of dual propulsion and multiple rudders offers unparalleled maneuverability, efficiency, and safety. As the maritime industry continues to evolve, this type of vessel will likely play a crucial role in meeting the challenges of global trade and exploration. Understanding the capabilities and advantages of such ships not only highlights the innovations in shipbuilding but also emphasizes the importance of developing reliable and efficient maritime transportation systems for the future.

船舶的设计和工程自早期海上旅行以来已经取得了长足的发展。在各种类型的船只中，双螺旋桨和三舵船因其先进的机动性和效率而脱颖而出。这种类型的船配备了两个螺旋桨，或称为螺旋桨，与单螺旋桨设计相比，提供了更大的推力和稳定性。三个舵的增加进一步增强了它在复杂水域中的导航能力，使其成为许多海军和商业应用的首选。双螺旋桨和三舵船的一个关键优势是其在各种海洋条件下的控制能力得到了改善。双螺旋桨允许更好的操控能力和更急转弯的能力。这在拥挤的港口或狭窄的航道中特别有益，因为精确度至关重要。此外，三舵系统提供了冗余；如果一个舵失效，剩下的舵仍然可以保持方向控制。这一特点对于安全性和操作可靠性至关重要，尤其是在恶劣天气条件下。此外，双螺旋桨和三舵船的推进系统旨在优化燃料效率。通过两个螺旋桨协同工作，船只可以在不消耗过多燃料的情况下达到更高的速度。这种效率转化为较低的运营成本，使其成为希望提高盈利能力同时保持环境标准的航运公司的吸引选择。在建造方面，建造一艘双螺旋桨和三舵船需要先进的工程技术和材料。造船商必须仔细考虑螺旋桨和舵的位置，以确保最佳性能。船体设计在船只与水的相互作用中也起着关键作用，影响速度和稳定性。随着技术的进步，造船商越来越多地利用计算机模拟来优化这些设计，确保新船舶满足现代海事操作的需求。双螺旋桨和三舵船的多功能性使其适合多种任务。从货物运输到研究考察，这些船可以适应各种角色。它们坚固的设计使其能够在不同环境中运行，从平静的海面到波涛汹涌的水域，使其成为商业和政府舰队中不可或缺的资产。总之，双螺旋桨和三舵船代表了海洋工程的一项重大进展。其双重推进和多重舵的独特组合提供了无与伦比的机动性、效率和安全性。随着海洋行业的不断发展，这种类型的船舶可能在满足全球贸易和探索挑战方面发挥关键作用。了解此类船舶的能力和优势不仅突显了造船领域的创新，也强调了为未来开发可靠、高效的海洋运输系统的重要性。