yaw-checking anchor

简明释义

止荡锚

英英释义

例句

1.To ensure stability, the engineers installed a yaw-checking anchor on the drilling platform.

为了确保稳定性，工程师在钻井平台上安装了航向检查锚。

2.The yaw-checking anchor proved essential for the aircraft during takeoff and landing phases.

在起飞和着陆阶段，航向检查锚对飞机至关重要。

3.The research vessel deployed a yaw-checking anchor to gather data more accurately.

研究船部署了航向检查锚以更准确地收集数据。

4.During the storm, the yaw-checking anchor helped keep the yacht oriented correctly.

在暴风雨中，航向检查锚帮助游艇保持正确的方向。

5.The ship's navigation system relies on the yaw-checking anchor to maintain its course during rough seas.

船舶的导航系统依靠航向检查锚在恶劣海况下保持航向。

作文

In the world of engineering and construction, particularly in marine and offshore applications, the term yaw-checking anchor refers to a specialized type of anchoring system designed to minimize the rotational movement or 'yaw' of a floating structure. Yaw is the angle between the direction a vessel is pointing and the actual direction of movement. This phenomenon can be particularly problematic for ships and floating platforms, as excessive yaw can lead to instability and inefficiency in operations. Therefore, understanding and implementing effective yaw control mechanisms is crucial for ensuring safety and operational effectiveness. The yaw-checking anchor serves as a stabilizing force that helps to maintain the desired heading of a vessel. This is especially important in scenarios where precise positioning is required, such as drilling operations or when conducting research in sensitive ecological areas. By effectively controlling yaw, these anchors allow vessels to remain oriented correctly even in the presence of strong currents or winds. To illustrate the importance of a yaw-checking anchor, consider a scenario involving an offshore oil rig. In this case, the rig must maintain its position over a specific drilling site to ensure accurate drilling. If the rig experiences significant yaw due to environmental factors, it could miss the target location, leading to costly delays and potential safety hazards. The implementation of a yaw-checking anchor would allow the rig to counteract these forces, providing a stable platform for operations. Moreover, the design of a yaw-checking anchor often involves advanced materials and technologies. Engineers must consider various factors, including the seabed conditions, water depth, and expected environmental forces. The anchor must not only hold the vessel in place but also allow for some degree of movement to accommodate changing conditions without losing stability. This balance is essential for the overall effectiveness of the anchoring system. In conclusion, the concept of a yaw-checking anchor is vital in the context of marine engineering and offshore operations. It highlights the need for precise control over a vessel's orientation to ensure safety and efficiency. As technology advances, we can expect further innovations in anchoring systems, leading to even more effective solutions for managing yaw and enhancing the stability of floating structures. Understanding this term and its implications is essential for professionals in the field, as they strive to create safer and more efficient marine environments.

在工程和建筑的世界中，尤其是在海洋和离岸应用中，术语偏航检查锚指的是一种特殊类型的锚固系统，旨在最小化浮动结构的旋转运动或“偏航”。偏航是指船只指向的方向与实际移动方向之间的角度。这种现象对于船舶和浮动平台来说可能特别成问题，因为过度的偏航会导致不稳定和操作效率低下。因此，理解和实施有效的偏航控制机制对于确保安全和操作有效性至关重要。 偏航检查锚作为一种稳定力量，有助于保持船只的期望航向。这在需要精确定位的情况下尤为重要，例如钻探作业或在敏感生态区域进行研究时。通过有效控制偏航，这些锚能够使船只在强流或风力的影响下保持正确的朝向。 为了说明偏航检查锚的重要性，可以考虑一个涉及离岸油井的场景。在这种情况下，油井必须保持其在特定钻探地点的定位，以确保准确钻探。如果油井由于环境因素而经历显著的偏航，它可能会错过目标位置，导致昂贵的延误和潜在的安全隐患。实施偏航检查锚将使油井能够抵消这些力量，为操作提供一个稳定的平台。 此外，偏航检查锚的设计通常涉及先进的材料和技术。工程师必须考虑各种因素，包括海床条件、水深和预期的环境力量。锚不仅必须将船只固定在一个位置，还必须允许一定程度的运动，以适应变化的条件，而不会失去稳定性。这种平衡对于锚固系统的整体有效性至关重要。 总之，偏航检查锚的概念在海洋工程和离岸操作的背景下至关重要。它突显了对船只朝向的精确控制的必要性，以确保安全和效率。随着技术的进步，我们可以期待锚固系统的进一步创新，从而为管理偏航和增强浮动结构的稳定性提供更有效的解决方案。理解这个术语及其含义对于该领域的专业人士至关重要，因为他们努力创造更安全、更高效的海洋环境。