damage stability

简明释义

破舱稳性

英英释义

例句

1.Proper design is crucial for ensuring the damage stability 损害稳定性 of offshore platforms.

适当的设计对于确保海上平台的损害稳定性至关重要。

2.Engineers conducted tests to evaluate the damage stability 损害稳定性 of the vessel after a collision.

工程师在碰撞后进行了测试，以评估船只的损害稳定性。

3.A thorough analysis of damage stability 损害稳定性 is required before any maritime operation.

在任何海事操作之前，需要进行全面的损害稳定性分析。

4.The crew was trained to respond to scenarios that could affect the damage stability 损害稳定性 of the ship.

船员接受了训练，以应对可能影响船只损害稳定性的场景。

5.The ship's damage stability 损害稳定性 assessment showed it could withstand significant flooding.

船只的损害稳定性评估显示它可以承受重大洪水。

作文

In the maritime industry, the term damage stability refers to the ability of a ship to remain upright and afloat after sustaining damage. This concept is crucial for ensuring the safety of the vessel and its crew during emergencies. A ship's damage stability is determined by various factors, including its design, the distribution of weight onboard, and the nature of the damage incurred. Understanding damage stability is essential for naval architects and marine engineers, as it directly impacts the survivability of the ship in adverse conditions.When a ship encounters a breach in its hull due to collision or grounding, the water that enters can cause the vessel to list or even capsize. The extent to which a ship can withstand such incidents without losing its stability is what we refer to as damage stability. Ships are designed with specific compartments that can be sealed off in the event of flooding, allowing them to maintain their balance and buoyancy. The effectiveness of these compartments plays a significant role in the overall damage stability of the vessel.To assess a ship's damage stability, engineers conduct stability calculations that take into account the ship's center of gravity, the location of the damaged area, and the volume of water that has entered the vessel. These calculations help determine the maximum angle at which the ship can tilt before capsizing. The results inform the crew about the necessary actions to take in case of an emergency, such as shifting cargo or using pumps to remove water.Regulatory bodies, such as the International Maritime Organization (IMO), have established guidelines and standards for damage stability to ensure that all commercial vessels meet minimum safety requirements. These regulations mandate that ships undergo rigorous testing and simulations to evaluate their damage stability under various scenarios. Compliance with these standards not only enhances the safety of the vessel but also protects the lives of those onboard and the marine environment.In addition to regulatory compliance, shipowners and operators must prioritize training their crew on how to respond effectively in the event of an incident that compromises damage stability. Crew members should be well-versed in emergency procedures, including how to assess damage, communicate with rescue teams, and execute damage control measures. Regular drills and training sessions can significantly improve the crew's preparedness and response time in emergencies.The importance of damage stability extends beyond individual vessels; it also has broader implications for maritime safety and environmental protection. When ships capsize or sink, they can pose significant risks to marine ecosystems and coastal communities. By ensuring that vessels are designed with robust damage stability features and that crews are adequately trained, the maritime industry can mitigate these risks and enhance overall safety at sea.In conclusion, damage stability is a vital aspect of ship design and operation that plays a crucial role in ensuring the safety and survivability of vessels in the face of unforeseen events. By understanding and prioritizing damage stability, the maritime industry can protect not only its assets but also the lives of those who navigate the world's oceans. As technology advances and new challenges arise, ongoing research and innovation in the field of damage stability will be essential for maintaining high safety standards in maritime operations.

在海事行业中，术语damage stability指的是船只在遭受损坏后保持直立和漂浮的能力。这个概念对于确保船舶及其船员在紧急情况下的安全至关重要。船舶的damage stability由多种因素决定，包括设计、船上重量的分布以及所遭受损坏的性质。理解damage stability对海军建筑师和海洋工程师至关重要，因为它直接影响到船舶在恶劣条件下的生存能力。当一艘船因碰撞或搁浅而遭遇船体破损时，进入的水可能导致船只倾斜甚至翻覆。船舶能够承受此类事件而不失去稳定性的程度就是我们所称的damage stability。船舶设计有特定的舱室，在发生洪水时可以封闭，从而让船舶保持平衡和浮力。这些舱室的有效性在船舶整体的damage stability中起着重要作用。为了评估船舶的damage stability，工程师会进行稳定性计算，考虑船舶的重心、损坏区域的位置和进入船舶的水量。这些计算有助于确定船舶在翻覆前可以倾斜的最大角度。结果向船员提供了在紧急情况下所需采取的必要措施的信息，例如转移货物或使用泵抽水。国际海事组织（IMO）等监管机构已建立了关于damage stability的指导方针和标准，以确保所有商业船舶达到最低安全要求。这些规定要求船舶经过严格的测试和模拟，以评估其在各种情况下的damage stability。遵守这些标准不仅增强了船舶的安全性，还保护了船上人员的生命和海洋环境。除了遵守法规外，船东和运营商还必须优先培训船员如何在危及damage stability的事件发生时有效应对。船员应熟悉应急程序，包括如何评估损坏、与救援队沟通以及执行损害控制措施。定期的演习和培训课程可以显著提高船员在紧急情况下的准备和反应时间。damage stability的重要性不仅限于个别船舶；它对海事安全和环境保护也有更广泛的影响。当船舶翻覆或沉没时，可能对海洋生态系统和沿海社区构成重大风险。通过确保船舶设计具有强大的damage stability特征，并且船员接受充分的培训，海事行业可以减轻这些风险，提高海上整体安全性。总之，damage stability是船舶设计和操作中的一个重要方面，对于确保船舶在不可预见事件面前的安全和生存能力起着至关重要的作用。通过理解和优先考虑damage stability，海事行业可以保护其资产以及航行于世界海洋的人的生命。随着技术的进步和新挑战的出现，在damage stability领域的持续研究和创新将对维持海事操作的高安全标准至关重要。