catenary moored buoy

简明释义

悬链式系泊浮筒

英英释义

例句

1.We used a catenary moored buoy for our long-term oceanographic study.

我们在长期海洋学研究中使用了一个悬链系泊浮标。

2.During the storm, the catenary moored buoy provided crucial data on wave heights.

在风暴期间，悬链系泊浮标提供了有关波高的重要数据。

3.The catenary moored buoy is equipped with sensors to measure water temperature.

该悬链系泊浮标配备了传感器，用于测量水温。

4.Engineers designed the catenary moored buoy to withstand harsh marine conditions.

工程师设计了这个悬链系泊浮标以承受恶劣的海洋条件。

5.The research team deployed a catenary moored buoy to monitor ocean currents.

研究小组部署了一个悬链系泊浮标来监测海洋流动。

作文

In the field of marine engineering, the term catenary moored buoy refers to a specific type of buoy that is anchored to the seabed using a catenary system. This system relies on the natural curve of a hanging chain or cable, which allows the buoy to maintain stability and flexibility in response to changing water conditions. The design of a catenary moored buoy is crucial for various applications, including navigation aids, offshore oil platforms, and environmental monitoring stations.One of the primary advantages of using a catenary moored buoy is its ability to withstand harsh marine environments. The catenary configuration helps distribute forces evenly along the mooring line, reducing the risk of breakage due to tension spikes caused by waves or currents. This is particularly important in deep-water applications where traditional mooring systems might fail under extreme conditions.Additionally, the catenary moored buoy can be designed to accommodate a wide range of water depths and seabed conditions. The flexibility of the mooring system allows for adjustments based on the specific environment, making it a versatile choice for various projects. For instance, in areas with soft sediments, the buoy can be anchored more securely, while in rocky or hard seabeds, the design can be modified to ensure proper holding capacity.The implementation of a catenary moored buoy also plays a significant role in enhancing safety measures in marine operations. By providing a stable platform, these buoys facilitate the safe transfer of personnel and equipment between vessels and offshore structures. Moreover, they serve as reliable reference points for navigation, helping to prevent accidents and ensure the efficient movement of ships in busy waterways.As technology advances, the design and functionality of catenary moored buoys continue to evolve. Innovations in materials and engineering techniques have led to the development of more durable and efficient mooring systems. For example, the use of synthetic ropes instead of traditional steel chains can significantly reduce the weight of the mooring system while maintaining strength and resilience.Furthermore, the integration of sensors and monitoring devices into catenary moored buoys has opened up new possibilities for data collection and environmental monitoring. These smart buoys can provide real-time information about water quality, wave patterns, and weather conditions, contributing to better decision-making in marine operations and research.In conclusion, the catenary moored buoy represents a vital component in the realm of marine engineering. Its unique design offers numerous benefits, including stability, adaptability, and enhanced safety. As the demand for offshore resources and environmental monitoring continues to grow, the importance of catenary moored buoys will only increase, paving the way for further advancements in marine technology and engineering practices.

在海洋工程领域，术语悬链线系泊浮标指的是一种特定类型的浮标，它通过悬链线系统锚定在海床上。该系统依赖于悬挂链条或电缆的自然曲线，使浮标能够在水域条件变化时保持稳定性和灵活性。悬链线系泊浮标的设计对于多种应用至关重要，包括导航辅助、海上石油平台和环境监测站。使用悬链线系泊浮标的主要优势之一是其能够抵御恶劣的海洋环境。悬链线配置有助于均匀分配系泊线上的力量，从而减少由于波浪或水流引起的张力峰值导致的断裂风险。这在深水应用中尤为重要，因为传统的系泊系统可能在极端条件下失效。此外，悬链线系泊浮标可以设计成适应各种水深和海床条件。系泊系统的灵活性允许根据特定环境进行调整，使其成为各种项目的多功能选择。例如，在软沉积物区域，浮标可以更安全地锚定，而在岩石或坚硬的海床中，设计可以修改以确保适当的固定能力。实施悬链线系泊浮标在增强海洋作业的安全措施方面也发挥了重要作用。通过提供一个稳定的平台，这些浮标促进了人员和设备在船只与海上结构之间的安全转移。此外，它们作为导航的可靠参考点，有助于防止事故并确保繁忙水道中船只的高效移动。随着技术的进步，悬链线系泊浮标的设计和功能不断演变。材料和工程技术的创新导致了更耐用和高效的系泊系统的发展。例如，使用合成绳代替传统钢链可以显著减少系泊系统的重量，同时保持强度和韧性。此外，将传感器和监测设备集成到悬链线系泊浮标中为数据收集和环境监测开辟了新的可能性。这些智能浮标可以提供关于水质、波浪模式和天气条件的实时信息，有助于在海洋操作和研究中做出更好的决策。总之，悬链线系泊浮标代表了海洋工程领域的重要组成部分。其独特的设计提供了诸多好处，包括稳定性、适应性和增强的安全性。随着对海上资源和环境监测需求的持续增长，悬链线系泊浮标的重要性将只会增加，为海洋技术和工程实践的进一步发展铺平道路。