seakeeping and maneuvering basin

简明释义

耐波性和操纵性水池

英英释义

例句

1.The design team reviewed the results from the seakeeping and maneuvering basin 海洋保持与机动试验池 tests to make necessary adjustments.

设计团队审查了来自海洋保持与机动试验池 seakeeping and maneuvering basin测试的结果，以进行必要的调整。

2.The new research vessel was tested in the seakeeping and maneuvering basin 海洋保持与机动试验池 to evaluate its stability in rough waters.

这艘新研究船在海洋保持与机动试验池 seakeeping and maneuvering basin中进行了测试，以评估其在恶劣水域的稳定性。

3.During the trials, the vessel demonstrated excellent performance in the seakeeping and maneuvering basin 海洋保持与机动试验池 under various sea conditions.

在试验期间，该船在各种海况下在海洋保持与机动试验池 seakeeping and maneuvering basin中表现出色。

4.The seakeeping and maneuvering basin 海洋保持与机动试验池 allows for precise measurements of a ship's motion in waves.

该海洋保持与机动试验池 seakeeping and maneuvering basin可精确测量船舶在波浪中的运动。

5.Engineers conducted simulations in the seakeeping and maneuvering basin 海洋保持与机动试验池 to improve the ship's handling characteristics.

工程师们在海洋保持与机动试验池 seakeeping and maneuvering basin中进行了模拟，以改善船舶的操控特性。

作文

The design and construction of marine vessels require extensive testing to ensure their performance in various sea conditions. One critical aspect of this testing is conducted in a facility known as a seakeeping and maneuvering basin. This specialized water tank simulates real-world marine environments, allowing engineers and researchers to evaluate how a vessel behaves when subjected to waves, currents, and wind. The importance of such a facility cannot be overstated, as it plays a crucial role in enhancing the safety and efficiency of maritime operations.A seakeeping and maneuvering basin is typically designed with specific dimensions and features that mimic oceanic conditions. It is equipped with wave generators that can create different types of waves, from calm surfaces to turbulent seas. This allows for the assessment of a vessel's stability, resistance to capsizing, and overall seaworthiness. Furthermore, the basin often includes maneuvering capabilities, enabling tests of how well a vessel can change direction, accelerate, and decelerate under varying conditions.The data collected during these tests is invaluable. Engineers analyze the vessel's response to different wave patterns and wind conditions, which helps them make informed decisions about design modifications. For instance, if a vessel shows excessive rolling in certain wave conditions, adjustments can be made to its hull shape or weight distribution to improve stability. Moreover, the seakeeping and maneuvering basin provides insights into fuel efficiency, as understanding how a vessel interacts with water can lead to more streamlined designs that reduce drag and improve performance.In addition to testing new designs, existing vessels also undergo evaluations in a seakeeping and maneuvering basin to assess their performance after modifications or repairs. This ensures that any changes made do not adversely affect the vessel's operational capabilities. For example, if a ship has undergone retrofitting to accommodate new technology, testing in the basin can verify that it still meets safety and performance standards.The significance of a seakeeping and maneuvering basin extends beyond just individual vessels. It contributes to the broader field of naval architecture and marine engineering by providing a controlled environment for research and development. Universities and research institutions often utilize these facilities to study hydrodynamics, the behavior of fluids in motion, which can lead to advancements in vessel design and marine technology.Furthermore, with the increasing focus on sustainability and environmental impact, testing in a seakeeping and maneuvering basin allows for the exploration of eco-friendly designs and technologies. By simulating various conditions, researchers can evaluate alternative energy sources, such as wind or solar power, and their feasibility for marine applications.In conclusion, a seakeeping and maneuvering basin is an essential tool in the maritime industry, providing a platform for rigorous testing and evaluation of vessels. It enhances safety, improves performance, and drives innovation in naval architecture. As the maritime industry continues to evolve, the role of such facilities will remain pivotal in shaping the future of marine transportation. The ability to accurately simulate real-world conditions ensures that vessels are not only capable of navigating the seas but also do so in a manner that is safe, efficient, and environmentally responsible.

海洋船舶的设计和建造需要进行广泛的测试，以确保它们在各种海洋条件下的性能。其中一个关键方面是在被称为海洋适航性和机动性水池的设施中进行测试。这个专业的水池模拟现实世界的海洋环境，允许工程师和研究人员评估船舶在波浪、洋流和风的作用下的表现。这样的设施的重要性不容小觑，因为它在提高海事操作的安全性和效率方面发挥着至关重要的作用。一个海洋适航性和机动性水池通常设计有特定的尺寸和特征，以模拟海洋条件。它配备了波浪发生器，可以产生不同类型的波浪，从平静的水面到动荡的海洋。这使得评估船舶在不同波浪条件下的稳定性、抗倾覆能力和整体适航性成为可能。此外，水池通常还具备机动能力，使得可以测试船舶在不同条件下的方向改变、加速和减速能力。在这些测试中收集到的数据是非常宝贵的。工程师分析船舶对不同波浪模式和风力条件的反应，这帮助他们做出有关设计修改的明智决策。例如，如果一艘船在某些波浪条件下表现出过度的摇摆，可以对其船体形状或重心分布进行调整，以改善稳定性。此外，海洋适航性和机动性水池提供了对燃油效率的洞察，因为了解船舶与水的相互作用可以导致更流线型的设计，从而减少阻力并提高性能。除了测试新设计外，现有船舶也会在海洋适航性和机动性水池中进行评估，以评估其在修改或维修后的性能。这确保了所做的任何更改不会对船舶的操作能力产生不利影响。例如，如果一艘船经过改装以适应新技术，水池中的测试可以验证其是否仍然符合安全和性能标准。海洋适航性和机动性水池的意义超越了单个船舶。它通过提供一个受控环境用于研究和开发，为海洋建筑和海洋工程的更广泛领域做出了贡献。大学和研究机构通常利用这些设施研究流体动力学，即运动中流体的行为，这可以导致船舶设计和海洋技术的进步。此外，随着对可持续性和环境影响的日益关注，在海洋适航性和机动性水池中进行测试使得探索生态友好设计和技术成为可能。通过模拟各种条件，研究人员可以评估替代能源，如风能或太阳能，以及它们在海洋应用中的可行性。总之，海洋适航性和机动性水池是海洋行业中一个必不可少的工具，为船舶的严格测试和评估提供了平台。它增强了安全性，提高了性能，并推动了海洋建筑的创新。随着海洋行业的不断发展，这种设施的作用将在塑造未来海洋运输方面继续发挥关键作用。准确模拟现实世界条件的能力确保了船舶不仅能够在海洋中航行，而且以安全、高效和环保的方式进行航行。