damage stability requirement

简明释义

破舱稳性要求

英英释义

例句

1.The ship was designed to meet the damage stability requirement 损伤稳定性要求 set by international regulations.

这艘船的设计符合国际法规设定的损伤稳定性要求。

2.During the inspection, the engineers verified that all vessels complied with the damage stability requirement 损伤稳定性要求.

在检查过程中，工程师确认所有船只都符合损伤稳定性要求。

3.Failure to adhere to the damage stability requirement 损伤稳定性要求 can lead to severe consequences in case of an accident.

不遵守损伤稳定性要求可能会在事故发生时导致严重后果。

4.Each vessel's compliance with the damage stability requirement 损伤稳定性要求 is crucial for safe operations.

每艘船只遵守损伤稳定性要求对安全运营至关重要。

5.The naval architect emphasized the importance of the damage stability requirement 损伤稳定性要求 during the design phase.

海军建筑师在设计阶段强调了损伤稳定性要求的重要性。

作文

In the field of naval architecture and marine engineering, the term damage stability requirement refers to a set of standards that vessels must meet to ensure their safety and integrity in the event of an accident or damage. These requirements are crucial for preventing capsizing and ensuring that a ship can remain afloat even after sustaining significant damage. The importance of damage stability requirement cannot be overstated, as it directly impacts the lives of crew members and passengers, as well as the protection of marine environments and property.When designing a vessel, engineers must consider various factors, including the ship's size, weight distribution, and the materials used in its construction. The damage stability requirement dictates how a ship should behave under different scenarios of flooding or structural failure. For instance, if a section of the hull is breached, the ship's ability to stay upright and avoid capsizing will depend on how well it meets these stability requirements.To comply with damage stability requirement, naval architects often perform stability calculations during the design phase. These calculations help determine the ship's center of gravity and buoyancy, which are critical for understanding how the vessel will respond to damage. Additionally, regulations from organizations such as the International Maritime Organization (IMO) outline specific criteria that ships must fulfill to ensure they are seaworthy.One key aspect of damage stability requirement is the concept of reserve buoyancy. This refers to the additional buoyancy a vessel has beyond what is necessary to keep it afloat. A ship with adequate reserve buoyancy can withstand flooding in certain compartments without losing stability. For example, if water enters one side of the ship, the reserve buoyancy allows the vessel to tilt but not capsize, giving crew members time to respond and take corrective actions.In recent years, technological advancements have further enhanced our understanding of damage stability requirement. Computer simulations and modeling tools allow engineers to test various damage scenarios and predict how a ship will behave in real-time. This capability not only improves the design process but also helps in developing training programs for crew members, ensuring they are prepared for emergencies.Moreover, the implementation of stringent damage stability requirement regulations has led to safer shipping practices worldwide. Ships that fail to meet these requirements may face restrictions on their operations or be required to undergo modifications to enhance their stability. This proactive approach to maritime safety has contributed to a significant reduction in accidents at sea, protecting both human lives and marine ecosystems.In conclusion, the damage stability requirement is an essential component of ship design and operation. It ensures that vessels can withstand damage and maintain stability, thereby safeguarding the lives of those on board and minimizing environmental impact. As the maritime industry continues to evolve, ongoing research and development in this area will be vital to enhancing safety standards and promoting sustainable practices at sea.

在海洋建筑和海洋工程领域，术语损伤稳定性要求指的是船舶在发生事故或损坏时必须满足的一系列标准，以确保其安全性和完整性。这些要求对于防止翻覆以及确保船舶在遭受重大损坏后能够保持漂浮至关重要。损伤稳定性要求的重要性不容小觑，因为它直接影响到船员和乘客的生命，以及对海洋环境和财产的保护。在设计船舶时，工程师必须考虑各种因素，包括船舶的大小、重量分布和所用材料。损伤稳定性要求规定了船舶在不同的洪水或结构故障情境下应如何表现。例如，如果船体的一部分被破坏，船舶在保持稳定和避免翻覆的能力将取决于其满足这些稳定性要求的程度。为了遵守损伤稳定性要求，海军建筑师通常在设计阶段进行稳定性计算。这些计算有助于确定船舶的重心和浮力，这对于理解船舶在受损情况下的反应至关重要。此外，国际海事组织（IMO）等机构的规定列出了船舶必须满足的具体标准，以确保其适航性。损伤稳定性要求的一个关键方面是储备浮力的概念。这指的是船舶在保持漂浮所需的浮力之外的额外浮力。具有足够储备浮力的船舶可以在某些舱室进水的情况下承受洪水而不会失去稳定性。例如，如果水进入船舶的一侧，储备浮力使船舶倾斜但不翻覆，从而为船员提供时间来响应并采取纠正措施。近年来，技术进步进一步增强了我们对损伤稳定性要求的理解。计算机模拟和建模工具使工程师能够测试各种损坏情景，并预测船舶在实时情况下的表现。这种能力不仅改善了设计过程，还有助于制定船员培训计划，确保他们为紧急情况做好准备。此外，严格实施的损伤稳定性要求法规已导致全球更安全的航运实践。未能满足这些要求的船舶可能面临运营限制，或被要求进行改造以增强其稳定性。这种对海事安全的主动方法有助于显著减少海上事故，保护人类生命和海洋生态系统。总之，损伤稳定性要求是船舶设计和运行的重要组成部分。它确保船舶能够承受损坏并保持稳定，从而保障船上人员的生命安全，最小化对环境的影响。随着海事行业的不断发展，在这一领域的持续研究和开发对提高安全标准和促进海洋可持续实践至关重要。