bilge-diagonal offset

简明释义

舭对角线型值

英英释义

例句

1.A miscalculation in the bilge-diagonal offset can lead to serious safety issues.

在舱底对角偏移上的错误计算可能导致严重的安全问题。

2.Adjusting the bilge-diagonal offset is crucial for maintaining the vessel's stability.

调整舱底对角偏移对于维持船只的稳定性至关重要。

3.The bilge-diagonal offset measurement is essential for calculating the center of gravity.

测量舱底对角偏移对计算重心至关重要。

4.During the inspection, we found the bilge-diagonal offset was not within the acceptable range.

在检查过程中，我们发现舱底对角偏移不在可接受范围内。

5.The engineer calculated the bilge-diagonal offset to ensure proper weight distribution.

工程师计算了舱底对角偏移以确保适当的重量分布。

作文

In the world of naval architecture and marine engineering, understanding complex terms is essential for designing efficient and safe vessels. One such term that often arises in discussions about ship design is bilge-diagonal offset. This term refers to the measurement that describes the distance from the bilge, which is the lowest part of a ship's hull, to a diagonal line drawn from the keel to the deck. The bilge-diagonal offset is crucial for ensuring that a ship maintains stability and buoyancy during its operations.When engineers design a ship, they must consider various factors that influence its performance in water. The shape and structure of the hull play a significant role in how the vessel interacts with waves, currents, and other environmental factors. By analyzing the bilge-diagonal offset, engineers can determine how the weight distribution within the ship affects its overall stability. A well-calculated bilge-diagonal offset can prevent issues such as capsizing or excessive rolling, which can endanger the crew and cargo.Moreover, the bilge-diagonal offset can also impact the vessel's fuel efficiency. A ship that is designed with an optimal bilge-diagonal offset will experience less drag as it moves through the water. This means that the engines will not have to work as hard to maintain speed, leading to reduced fuel consumption and lower operational costs. In an era where sustainability is becoming increasingly important, the ability to design ships that are both efficient and environmentally friendly is paramount.To illustrate the significance of the bilge-diagonal offset, let us consider a case study involving a new cargo ship being developed for international shipping routes. The design team meticulously calculated the bilge-diagonal offset based on the expected load and distribution of cargo. By conducting simulations and model testing, they were able to adjust the hull shape and dimensions to achieve an ideal offset. As a result, the ship not only met safety regulations but also exceeded expectations in terms of fuel efficiency and speed.Furthermore, the bilge-diagonal offset is not just a static measurement; it can change based on the ship's loading conditions. As cargo is loaded or unloaded, the center of gravity shifts, and so does the bilge-diagonal offset. Therefore, it is essential for crew members and operators to understand how these changes affect the vessel's stability. Regular checks and adjustments may be necessary to ensure that the ship remains safe and seaworthy throughout its journey.In conclusion, the term bilge-diagonal offset encapsulates a critical aspect of ship design and operation. Its implications extend beyond mere measurements; they influence the safety, efficiency, and environmental impact of maritime vessels. As the shipping industry continues to evolve, understanding and optimizing the bilge-diagonal offset will remain a top priority for engineers and naval architects alike. This knowledge not only enhances our ability to design better ships but also contributes to the sustainable future of marine transportation.

在船舶建筑和海洋工程的世界中，理解复杂术语对于设计高效且安全的船只至关重要。在关于船舶设计的讨论中，一个常常出现的术语是bilge-diagonal offset。这个术语指的是从船体最低点（即舷侧）到从龙骨到甲板绘制的对角线的距离。bilge-diagonal offset对于确保船舶在操作过程中保持稳定性和浮力至关重要。当工程师设计船舶时，他们必须考虑影响船舶性能的各种因素。船体的形状和结构在船舶与波浪、潮流及其他环境因素的相互作用中起着重要作用。通过分析bilge-diagonal offset，工程师可以确定船内重量分布如何影响整体稳定性。经过精确计算的bilge-diagonal offset可以防止翻覆或过度摇摆等问题，这些问题可能危及船员和货物的安全。此外，bilge-diagonal offset还会影响船舶的燃油效率。设计出最佳bilge-diagonal offset的船舶在水中行驶时阻力较小。这意味着发动机不需要努力维持速度，从而减少燃料消耗和降低运营成本。在可持续性日益重要的时代，设计出既高效又环保的船舶至关重要。为了说明bilge-diagonal offset的重要性，我们考虑一个正在开发的新型货轮的案例研究，该货轮用于国际航运路线。设计团队根据预期的负载和货物分布仔细计算了bilge-diagonal offset。通过进行模拟和模型测试，他们能够调整船体形状和尺寸，以实现理想的偏移。因此，该船不仅符合安全法规，还在燃油效率和速度方面超出了预期。此外，bilge-diagonal offset不仅是一个静态测量值；它可能会根据船舶的装载条件而变化。随着货物的装载或卸载，重心发生移动，bilge-diagonal offset也会随之改变。因此，船员和操作人员必须了解这些变化如何影响船舶的稳定性。定期检查和调整可能是必要的，以确保船舶在整个航程中保持安全和适航。总之，术语bilge-diagonal offset概括了船舶设计和操作中的一个关键方面。它的影响不仅仅局限于测量；它影响着海洋船舶的安全性、效率和环境影响。随着航运业的不断发展，理解和优化bilge-diagonal offset将始终是工程师和船舶建筑师的首要任务。这一知识不仅提升了我们设计更好船舶的能力，也为海洋运输的可持续未来做出了贡献。