hogging correction

简明释义

拱校正

英英释义

例句

1.The software used for naval architecture includes tools for hogging correction calculations.

用于船舶设计的软件包括吃水修正计算工具。

2.After the inspection, the captain requested a hogging correction to prevent any potential damage.

检查后，船长要求进行吃水修正以防止潜在损害。

3.The team discussed various methods of hogging correction to enhance the vessel's safety.

团队讨论了多种吃水修正方法，以增强船只的安全性。

4.During the stability analysis, we found that hogging correction was necessary for better performance.

在稳定性分析中，我们发现需要进行吃水修正以获得更好的性能。

5.The engineer implemented a hogging correction to address the structural issues in the ship's design.

工程师实施了吃水修正以解决船舶设计中的结构问题。

作文

In the world of naval architecture and marine engineering, the term hogging correction plays a crucial role in ensuring the stability and safety of vessels. To understand this concept better, we must first delve into what hogging means. Hogging occurs when the midship section of a ship is lifted above the waterline due to the distribution of weight and buoyancy. This phenomenon can lead to structural stress and potential damage if not properly managed. Therefore, implementing a hogging correction is essential for maintaining the vessel's integrity during its operation.The process of hogging correction involves adjusting the weight distribution on board or making design modifications to counteract the effects of hogging. For instance, when a ship is loaded, the placement of cargo can significantly affect how the vessel sits in the water. If too much weight is placed towards the bow or stern, it can exacerbate hogging, leading to dangerous conditions. By strategically redistributing the cargo or using ballast, engineers can perform a hogging correction to ensure that the ship remains level and stable.Moreover, the design phase of a vessel also incorporates considerations for hogging correction. Naval architects conduct extensive calculations and simulations to predict how a ship will behave under various loading conditions. This predictive analysis allows them to design hull shapes and structural reinforcements that mitigate the risks associated with hogging. By anticipating these challenges, they can create safer and more efficient vessels that are less prone to stress-related failures.In addition to physical adjustments, technology plays a significant role in monitoring and correcting hogging. Modern ships are equipped with advanced sensors and software that provide real-time data on the vessel's performance. These systems can detect changes in the ship's attitude and automatically suggest corrective actions. For example, if a ship begins to experience hogging, the onboard system might recommend shifting ballast or redistributing cargo to achieve a more balanced state. This integration of technology ensures that hogging correction can be performed swiftly and efficiently, minimizing risks to both the vessel and its crew.Furthermore, understanding hogging correction is not only vital for engineers and architects but also for the crew operating the vessel. Crew members must be trained to recognize the signs of hogging and understand the importance of maintaining proper weight distribution. Regular inspections and adherence to loading guidelines are critical in preventing hogging from occurring in the first place. By fostering a culture of safety and awareness among the crew, the likelihood of encountering hogging issues can be significantly reduced.In conclusion, hogging correction is an essential aspect of maritime operations that ensures the safety and efficiency of vessels. Through careful planning, innovative design, and the use of modern technology, the maritime industry can effectively manage the challenges posed by hogging. As the industry continues to evolve, the importance of understanding and implementing hogging correction will remain paramount, safeguarding both the vessels and the lives of those who operate them.

在海洋建筑和海洋工程的世界中，术语hogging correction（驳船矫正）在确保船舶的稳定性和安全性方面发挥着至关重要的作用。要更好地理解这个概念，我们必须首先探讨什么是驳船（hogging）。驳船是指由于重量和浮力的分布，船舶的中部船体部分被抬高出水线。这种现象如果不加以管理，可能会导致结构应力和潜在损坏。因此，实施hogging correction（驳船矫正）对于维持船舶在操作过程中的完整性至关重要。hogging correction（驳船矫正）的过程涉及调整船上的重量分布或进行设计修改，以抵消驳船的影响。例如，当船舶装载时，货物的放置可以显著影响船舶在水中的位置。如果过多的重量放置在船头或船尾，可能会加剧驳船，从而导致危险的情况。通过战略性地重新分配货物或使用压舱物，工程师可以进行hogging correction（驳船矫正），以确保船舶保持平衡和稳定。此外，船舶的设计阶段也考虑了hogging correction（驳船矫正）的因素。海洋建筑师进行广泛的计算和模拟，以预测船舶在各种装载条件下的表现。这种预测分析使他们能够设计出能够减轻驳船相关风险的船体形状和结构加固。通过预见这些挑战，他们能够创建更安全、更高效的船舶，从而减少因应力引起的故障。除了物理调整外，技术在监测和纠正驳船方面也发挥着重要作用。现代船舶配备了先进的传感器和软件，提供有关船舶性能的实时数据。这些系统可以检测船舶姿态的变化，并自动建议纠正措施。例如，如果船舶开始经历驳船，船上系统可能会建议移动压舱物或重新分配货物，以实现更平衡的状态。这种技术的整合确保了hogging correction（驳船矫正）能够迅速高效地执行，最大限度地减少对船舶及其船员的风险。此外，理解hogging correction（驳船矫正）不仅对工程师和建筑师至关重要，对操作船舶的船员同样重要。船员必须接受培训，以识别驳船的迹象，并理解保持适当重量分布的重要性。定期检查和遵守装载指南对于防止驳船的发生至关重要。通过在船员中培养安全意识和警觉性，遇到驳船问题的可能性可以显著降低。总之，hogging correction（驳船矫正）是海事操作中的一个基本方面，确保船舶的安全和效率。通过仔细规划、创新设计和现代技术的应用，海事行业能够有效管理驳船带来的挑战。随着行业的不断发展，理解和实施hogging correction（驳船矫正）的重要性将始终是首要任务，保障船舶及其操作人员的生命安全。