seakeeping ability

简明释义

适航性

英英释义

例句

1.During the trials, the ship's seakeeping ability was tested against various wave conditions.

在试航中，船只的航行稳定性在不同波浪条件下进行了测试。

2.The research indicated that hull shape greatly affects a ship's seakeeping ability.

研究表明，船体形状对船只的航行稳定性有很大影响。

3.The new vessel was designed with enhanced seakeeping ability to ensure stability in rough waters.

这艘新船的设计增强了航行稳定性，以确保在恶劣水域中的稳定性。

4.Engineers focus on improving the seakeeping ability of ships to enhance crew comfort.

工程师们专注于提高船只的航行稳定性，以增强船员的舒适度。

5.A vessel with poor seakeeping ability can lead to dangerous situations at sea.

一艘航行稳定性差的船只可能会在海上导致危险情况。

作文

The term seakeeping ability refers to a vessel's capability to maintain stability and safety while navigating through various sea conditions. This concept is crucial for the design and operation of ships, as it affects not only the comfort of the crew and passengers but also the effectiveness of the vessel in its intended operations. A ship with good seakeeping ability can handle rough waters, high waves, and strong winds without compromising its performance or safety. When evaluating a ship's seakeeping ability, several factors come into play, including hull design, weight distribution, and the type of propulsion system used. For instance, a well-designed hull can reduce drag, allowing the ship to move more smoothly through the water. Additionally, an optimal weight distribution ensures that the vessel remains balanced, minimizing the risk of capsizing or taking on water. These elements are particularly important for military vessels, research ships, and commercial carriers that must operate in challenging maritime environments.Moreover, the seakeeping ability of a ship is often assessed through simulations and model testing. Engineers use computational fluid dynamics (CFD) and scale models to predict how a vessel will behave in different sea states. These tests help identify potential issues and allow designers to make necessary adjustments before the ship is built. The ultimate goal is to create a vessel that can efficiently and safely navigate through turbulent waters, ensuring the safety of all onboard.In addition to technical specifications, the seakeeping ability also impacts the operational efficiency of a ship. For example, a vessel that can maintain its course and speed in rough seas will consume less fuel and complete its journey more quickly than one that struggles against the elements. This efficiency is particularly valuable for commercial shipping companies, where time and fuel costs directly affect profitability.Furthermore, the importance of seakeeping ability extends beyond the economic aspects; it also encompasses environmental considerations. Ships that are better equipped to handle adverse weather conditions are less likely to encounter accidents that could lead to oil spills or other forms of pollution. By prioritizing seakeeping ability in ship design, the maritime industry can contribute to safer and more sustainable ocean practices.In conclusion, the seakeeping ability of a vessel is a critical factor in maritime operations. It influences the safety, comfort, and efficiency of ships navigating through unpredictable sea conditions. As technology advances, the methods for assessing and enhancing seakeeping ability will continue to evolve, leading to the development of even more capable vessels. Ultimately, understanding and improving this ability is essential for the future of maritime transportation and environmental protection.

术语seakeeping ability指的是船只在各种海况下保持稳定和安全的能力。这个概念对于船舶的设计和操作至关重要，因为它不仅影响船员和乘客的舒适度，还影响船舶在预定操作中的有效性。一艘具有良好seakeeping ability的船可以在波涛汹涌的海面、高浪和强风中航行，而不会影响其性能或安全性。在评估船舶的seakeeping ability时，多个因素会起作用，包括船体设计、重量分布和所使用的推进系统类型。例如，良好设计的船体可以减少阻力，使船更顺畅地穿过水面。此外，最佳的重量分布确保船只保持平衡，最大限度地降低翻覆或进水的风险。这些因素对于必须在严峻海洋环境中操作的军舰、研究船和商用运输船尤其重要。此外，船舶的seakeeping ability通常通过模拟和模型测试来评估。工程师使用计算流体动力学（CFD）和缩尺模型来预测船只在不同海况下的表现。这些测试有助于识别潜在问题，并允许设计师在船舶建造之前进行必要的调整。最终目标是创建一艘能够高效、安全地穿越波涛汹涌的水域的船只，确保所有乘员的安全。除了技术规格外，seakeeping ability还影响船舶的运营效率。例如，一艘能够在恶劣海域中保持航向和速度的船将消耗更少的燃料，并比在元素中挣扎的船更快地完成航程。这种效率对于商业航运公司尤为重要，因为时间和燃料成本直接影响盈利能力。此外，seakeeping ability的重要性超越了经济方面；它还包含环境考虑。能够更好地应对恶劣天气条件的船只不太可能遭遇可能导致石油泄漏或其他形式污染的事故。通过优先考虑船舶设计中的seakeeping ability，海事行业可以促进更安全、更可持续的海洋实践。总之，船舶的seakeeping ability是海事操作中的一个关键因素。它影响船只在不可预测的海况下的安全性、舒适性和效率。随着技术的进步，评估和增强seakeeping ability的方法将继续发展，从而开发出更具能力的船只。最终，理解和改善这一能力对于海事运输和环境保护的未来至关重要。