seakeeping basin

简明释义

耐波性试验水池

英英释义

例句

1.The seakeeping basin 航行稳定性试验池 is equipped with advanced sensors to monitor the vessel's behavior.

航行稳定性试验池 seakeeping basin 配备了先进的传感器，以监测船舶的行为。

2.The new vessel was tested in the seakeeping basin 航行稳定性试验池 to evaluate its performance in rough seas.

新船在航行稳定性试验池 seakeeping basin 中进行了测试，以评估其在恶劣海况下的表现。

3.During the testing phase, the team utilized the seakeeping basin 航行稳定性试验池 to simulate various ocean conditions.

在测试阶段，团队利用航行稳定性试验池 seakeeping basin 模拟各种海洋条件。

4.Engineers conducted a series of trials in the seakeeping basin 航行稳定性试验池 to ensure the ship's stability.

工程师们在航行稳定性试验池 seakeeping basin 中进行了系列试验，以确保船舶的稳定性。

5.The results from the seakeeping basin 航行稳定性试验池 indicated that the design needed adjustments for better performance.

来自航行稳定性试验池 seakeeping basin 的结果表明，设计需要进行调整以提高性能。

作文

The concept of a seakeeping basin is essential in the field of naval architecture and marine engineering. A seakeeping basin is essentially a controlled water environment where various tests are conducted to evaluate the performance of ships and vessels under different sea conditions. This controlled setting allows engineers and designers to simulate real-world scenarios, providing valuable data that can significantly impact the design and functionality of maritime vessels.One of the primary reasons for utilizing a seakeeping basin is to assess the stability and maneuverability of a vessel. During testing, a ship is subjected to waves, wind, and other environmental factors that it would encounter at sea. By observing how the vessel behaves in these conditions, engineers can identify potential issues related to stability, comfort, and safety. For instance, if a ship rolls excessively or pitches too much, modifications can be made to its design before it is built, saving time and resources in the long run.In addition to stability testing, a seakeeping basin is also used to evaluate the overall performance of a vessel. This includes analyzing speed, fuel efficiency, and the effectiveness of various propulsion systems. By conducting experiments in a seakeeping basin, designers can optimize the shape and structure of the hull, leading to improved performance in actual sea conditions.Moreover, the data obtained from a seakeeping basin can be crucial for regulatory compliance. Many countries have specific standards that maritime vessels must meet to ensure safety and environmental protection. Testing in a seakeeping basin helps manufacturers demonstrate that their vessels comply with these regulations, which is essential for gaining approval to operate in international waters.The design of a seakeeping basin itself is quite sophisticated. It typically consists of a large, rectangular pool with mechanisms to generate waves and currents that mimic those found in the ocean. Some advanced facilities even use computer simulations to create virtual environments for testing. The ability to control and manipulate these conditions makes the seakeeping basin an invaluable tool for researchers and engineers alike.Furthermore, the importance of seakeeping basins extends beyond commercial shipping. They are also used in the development of naval vessels, research ships, and even recreational boats. The insights gained from testing in a seakeeping basin can lead to innovations that enhance safety, efficiency, and performance across various types of marine crafts.In conclusion, the seakeeping basin is a vital component in the maritime industry, serving as a testing ground for ship design and performance evaluation. Its role in ensuring the safety and efficiency of vessels cannot be overstated. As technology continues to advance, the capabilities of seakeeping basins will likely evolve, further enhancing our understanding of marine dynamics and improving the designs of future vessels. Ultimately, the knowledge gained from these facilities contributes not only to the success of individual ships but also to the overall advancement of maritime technology and safety standards worldwide.

“海洋保持水池”的概念在船舶建筑和海洋工程领域至关重要。海洋保持水池本质上是一个受控的水环境，在这里进行各种测试，以评估船舶和船只在不同海况下的性能。这个受控的环境使工程师和设计师能够模拟现实世界的场景，提供宝贵的数据，这些数据可以显著影响海事船舶的设计和功能。使用海洋保持水池的主要原因之一是评估船舶的稳定性和机动性。在测试过程中，船只会受到波浪、风和其他它在海上会遇到的环境因素的影响。通过观察船舶在这些条件下的行为，工程师可以识别与稳定性、舒适性和安全性有关的潜在问题。例如，如果一艘船的滚动过于剧烈或俯仰过多，可以在建造之前对其设计进行修改，从而节省时间和资源。除了稳定性测试，海洋保持水池还用于评估船舶的整体性能。这包括分析速度、燃油效率和各种推进系统的有效性。通过在海洋保持水池中进行实验，设计者可以优化船体的形状和结构，从而提高在实际海况下的性能。此外，从海洋保持水池获得的数据对于合规性也至关重要。许多国家对海事船舶有特定的标准，以确保安全和环境保护。在海洋保持水池中进行测试有助于制造商证明其船舶符合这些规定，这对于获得在国际水域运营的批准至关重要。海洋保持水池的设计本身也相当复杂。它通常由一个大型矩形池组成，配备生成波浪和水流的机制，以模拟海洋中的情况。一些先进的设施甚至使用计算机模拟来创建虚拟环境进行测试。控制和操纵这些条件的能力使得海洋保持水池成为研究人员和工程师不可或缺的工具。此外，海洋保持水池的重要性不仅限于商业航运。它们还用于军舰、研究船甚至休闲船的开发。在海洋保持水池中进行测试所获得的见解可以导致安全、效率和性能方面的创新，适用于各种类型的海洋船只。总之，海洋保持水池是海事行业中一个至关重要的组成部分，充当船舶设计和性能评估的测试场。它在确保船舶的安全性和效率方面的作用不可小觑。随着技术的不断进步，海洋保持水池的能力可能会发展，进一步增强我们对海洋动力学的理解，并改善未来船舶的设计。最终，从这些设施获得的知识不仅有助于单个船舶的成功，还有助于全球海事技术和安全标准的整体进步。