full scale seakeeping trials
简明释义
实船适航性试验
英英释义
例句
1.The full scale seakeeping trials 全尺度航行试验 helped determine how the ship would perform in rough seas.
该全尺度航行试验帮助确定船舶在恶劣海况下的表现。
2.The research vessel was equipped to conduct full scale seakeeping trials 全尺度航行试验 in the North Atlantic.
这艘研究船装备齐全,可以在北大西洋进行全尺度航行试验。
3.The results of the full scale seakeeping trials 全尺度航行试验 will be published in a maritime journal.
该全尺度航行试验的结果将发表在一本海事期刊上。
4.Safety protocols were established before commencing the full scale seakeeping trials 全尺度航行试验.
在开始全尺度航行试验之前,制定了安全协议。
5.Engineers analyzed the data collected from the full scale seakeeping trials 全尺度航行试验 to improve vessel design.
工程师分析了从全尺度航行试验中收集的数据,以改进船舶设计。
作文
In the field of naval architecture and marine engineering, the term full scale seakeeping trials refers to comprehensive tests conducted on a vessel to evaluate its performance in real sea conditions. These trials are crucial for understanding how a ship behaves in various maritime environments, which can significantly influence its design and operational capabilities. The primary objective of full scale seakeeping trials is to gather empirical data on the vessel's response to waves, wind, and other environmental factors that affect its stability and maneuverability.The process of conducting full scale seakeeping trials typically involves a series of systematic tests where the vessel is subjected to different sea states. During these trials, engineers and researchers measure various parameters such as pitch, roll, yaw, and heave, which are critical for assessing the ship's seakeeping ability. These measurements help identify any potential issues related to comfort, safety, and operational efficiency. For instance, excessive rolling or pitching can lead to discomfort for passengers and crew, as well as potential damage to cargo and equipment.One of the key advantages of full scale seakeeping trials is that they provide realistic data that cannot be fully replicated in model tests or simulations. While scale models can offer valuable insights, they often fail to capture the complexities of fluid dynamics and wave interactions experienced by a full-sized vessel. Therefore, conducting these trials is essential for validating the design and ensuring that the ship will perform as expected in actual operating conditions.Moreover, full scale seakeeping trials play a vital role in regulatory compliance. Many countries have stringent maritime regulations that require vessels to meet specific performance standards before they can be certified for commercial use. By performing these trials, shipbuilders can demonstrate that their designs meet or exceed the required criteria, thereby facilitating the approval process.In addition to testing new designs, full scale seakeeping trials are also conducted on existing vessels to assess their performance after modifications or upgrades. This can include changes to the hull design, propulsion systems, or onboard technology. By evaluating the impact of these changes through rigorous testing, engineers can ensure that the vessel continues to operate safely and efficiently.Furthermore, the data obtained from full scale seakeeping trials can be used to inform future design practices and innovations in naval architecture. As the industry evolves, understanding how vessels respond to increasingly challenging environmental conditions becomes paramount. This knowledge not only enhances the safety and comfort of maritime operations but also contributes to advancements in sustainable shipping practices.In conclusion, full scale seakeeping trials are an indispensable part of the ship design and evaluation process. They provide critical insights into a vessel's behavior in real-world conditions, ensuring that ships are safe, efficient, and comfortable for all who travel aboard them. As the maritime industry continues to face new challenges, the importance of these trials will only grow, making them a cornerstone of modern naval engineering.
在海洋建筑和海洋工程领域,术语全尺度航行试验指的是对船舶进行的全面测试,以评估其在真实海洋条件下的性能。这些试验对于理解一艘船在各种海洋环境中的表现至关重要,这可能会显著影响它的设计和操作能力。全尺度航行试验的主要目标是收集关于船舶对波浪、风和其他环境因素反应的实证数据,这些因素会影响其稳定性和机动性。进行全尺度航行试验的过程通常涉及一系列系统性的测试,在这些测试中,船舶被置于不同的海况下。在这些试验中,工程师和研究人员测量诸如俯仰、滚转、偏航和垂向等各种参数,这些参数对于评估船舶的航行能力至关重要。这些测量有助于识别与舒适性、安全性和操作效率相关的潜在问题。例如,过度的滚转或俯仰可能会导致乘客和船员的不适,以及对货物和设备的潜在损害。全尺度航行试验的一个关键优势在于,它们提供了现实的数据,这些数据无法在模型测试或模拟中完全复制。尽管规模模型可以提供有价值的见解,但它们往往无法充分捕捉到全尺寸船舶所经历的流体动力学和波浪相互作用的复杂性。因此,进行这些试验对于验证设计并确保船舶在实际操作条件下按预期性能至关重要。此外,全尺度航行试验在合规性方面也发挥着重要作用。许多国家对船舶有严格的海事法规,要求船舶在商业使用前满足特定的性能标准。通过进行这些试验,造船商可以证明他们的设计符合或超过所需的标准,从而促进审批过程。除了对新设计进行测试外,全尺度航行试验还会对现有船舶进行测试,以评估其在修改或升级后的性能。这可能包括对船体设计、推进系统或船上技术的更改。通过通过严格的测试评估这些更改的影响,工程师可以确保船舶继续安全高效地运行。此外,从全尺度航行试验中获得的数据可以用于指导未来的设计实践和海洋建筑创新。随着行业的发展,了解船舶如何应对日益严峻的环境条件变得至关重要。这种知识不仅提高了海洋操作的安全性和舒适性,还有助于可持续航运实践的进步。总之,全尺度航行试验是船舶设计和评估过程不可或缺的一部分。它们提供了对船舶在现实条件下行为的关键见解,确保船舶对所有乘客和船员都是安全、高效和舒适的。随着海洋行业面临新的挑战,这些试验的重要性只会增加,使其成为现代海洋工程的基石。
