seakeeping capacity

简明释义

耐波性

英英释义

例句

1.Engineers conducted tests to evaluate the seakeeping capacity of the naval ship in various sea states.

工程师们进行了测试，以评估海军舰艇在不同海况下的抗浪能力。

2.The design team focused on enhancing the seakeeping capacity of the yacht for better comfort at sea.

设计团队专注于提高游艇的抗浪能力，以便在海上提供更好的舒适性。

3.The new research vessel was designed with improved seakeeping capacity to handle rough ocean conditions.

这艘新研究船的设计提高了其抗浪能力，以应对恶劣的海洋条件。

4.A vessel's seakeeping capacity is crucial for ensuring the safety of its crew during storms.

船只的抗浪能力对于确保船员在风暴期间的安全至关重要。

5.High seakeeping capacity allows ships to maintain speed and stability in turbulent waters.

高抗浪能力使船只能够在波涛汹涌的水域保持速度和稳定性。

作文

In the realm of naval architecture and marine engineering, the term seakeeping capacity refers to a vessel's ability to maintain its intended course and stability while navigating through waves and rough seas. This characteristic is crucial for ensuring the safety and comfort of both the crew and passengers onboard. A ship with good seakeeping capacity can effectively handle adverse weather conditions, reducing the risk of capsizing or sustaining damage during storms. It is essential for various types of vessels, including cargo ships, passenger ferries, and military ships, to possess this capability to perform their functions efficiently.To evaluate a vessel's seakeeping capacity, engineers conduct a series of tests and simulations that examine how the ship interacts with wave patterns. These assessments often involve complex mathematical models and computer simulations, which help predict how the vessel will behave in different sea states. Factors such as hull design, weight distribution, and the arrangement of onboard systems play significant roles in determining a ship's overall stability and responsiveness to ocean conditions.A well-designed hull can significantly enhance a ship's seakeeping capacity. For instance, a deeper hull shape may allow for better penetration through waves, while a wider beam can provide additional stability. Moreover, advanced materials and construction techniques have been developed to optimize the hydrodynamics of a vessel, further improving its performance in challenging maritime environments.The importance of seakeeping capacity extends beyond mere comfort; it directly impacts operational efficiency and economic viability. For commercial vessels, poor seakeeping can lead to increased fuel consumption due to the need for constant course corrections and could also result in cargo damage if not properly secured. In military applications, a ship's ability to maintain stability and maneuverability in rough seas can be the difference between mission success and failure.Furthermore, the seakeeping capacity of a vessel is increasingly relevant in the context of climate change and rising sea levels. As global weather patterns become more unpredictable, ships must be designed to withstand more extreme conditions. This has led to innovations in shipbuilding practices, with an emphasis on creating vessels that are not only capable of thriving in rough seas but also minimizing their environmental impact.In conclusion, the concept of seakeeping capacity is fundamental to the design and operation of marine vessels. It encompasses a range of factors that contribute to a ship's ability to navigate safely and efficiently through challenging sea conditions. As technology advances and the demands on marine transportation evolve, the importance of enhancing seakeeping capacity will continue to grow, ensuring that vessels can operate effectively in an ever-changing maritime landscape.

在海洋建筑和海洋工程领域，术语seakeeping capacity指的是船只在航行于波浪和恶劣海况时维持其预定航向和稳定性的能力。这一特性对于确保船员和乘客的安全与舒适至关重要。具备良好seakeeping capacity的船只能够有效应对不利天气条件，减少在风暴中翻覆或受损的风险。各种类型的船只，包括货船、客船和军舰，都必须具备这一能力，以高效地执行其功能。为了评估船只的seakeeping capacity，工程师们会进行一系列测试和模拟，检查船只如何与波浪模式相互作用。这些评估通常涉及复杂的数学模型和计算机模拟，帮助预测船只在不同海况下的表现。船体设计、重量分布以及船上系统的布局等因素在确定船只的整体稳定性和对海洋条件反应能力方面起着重要作用。一个设计良好的船体可以显著增强船只的seakeeping capacity。例如，更深的船体形状可能允许更好地穿透波浪，而更宽的船身则可以提供额外的稳定性。此外，先进的材料和建造技术已经被开发出来，以优化船只的水动力学，进一步提升其在挑战性海洋环境中的表现。seakeeping capacity的重要性不仅仅体现在舒适性上；它直接影响到操作效率和经济可行性。对于商业船只而言，较差的航行能力可能导致由于需要不断修正航向而增加的燃料消耗，同时也可能导致货物损坏（如果没有妥善固定的话）。在军事应用中，船只在恶劣海况下保持稳定性和机动性的能力可能是任务成功与失败之间的区别。此外，随着气候变化和海平面上升，船只的seakeeping capacity变得越来越相关。随着全球天气模式变得更加不可预测，船只必须被设计成能够承受更极端的条件。这促使了船舶建造实践中的创新，强调创造能够在恶劣海域中茁壮成长且最小化环境影响的船只。总之，seakeeping capacity的概念对于海洋船只的设计和操作至关重要。它涵盖了一系列因素，这些因素共同决定了船只在挑战性海况中安全高效航行的能力。随着技术的进步和海洋运输需求的演变，提升seakeeping capacity的重要性将继续增长，确保船只能够在不断变化的海洋环境中有效运作。