ballasted condition

简明释义

空船压载状态

英英释义

例句

1.The ship was in a ballasted condition to ensure stability during the rough seas.

船处于平衡状态以确保在恶劣海况下的稳定性。

2.In a ballasted condition, the aircraft can maintain better control during turbulence.

在平衡状态下，飞机在颠簸时可以保持更好的控制。

3.Before the race, the car was adjusted to a ballasted condition for optimal handling.

比赛前，汽车被调整到平衡状态以获得最佳操控性能。

4.The model train runs smoothly when it is in a ballasted condition on the tracks.

当模型火车在轨道上处于平衡状态时，运行非常平稳。

5.The construction equipment was transported in a ballasted condition to prevent tipping over.

建筑设备以平衡状态运输，以防止倾覆。

作文

In the world of engineering and maritime operations, the term ballasted condition refers to a state where a vessel or structure is stabilized by the addition of weight, often in the form of water or other materials. This concept is crucial for ensuring safety and functionality, especially in ships and submarines. When a ship is in a ballasted condition, it achieves a lower center of gravity, which helps prevent capsizing and enhances its ability to navigate through rough waters.To better understand the significance of a ballasted condition, we can look at the design and operation of modern ships. These vessels are engineered to carry heavy loads across vast oceans, and their stability is paramount. Without proper ballasting, a ship could easily become unbalanced, leading to disastrous consequences. For instance, during storms or turbulent seas, a ship that is not adequately ballasted may tilt excessively, risking the safety of its crew and cargo.The process of achieving a ballasted condition involves carefully calculating the amount of ballast needed based on various factors, including the ship's weight, cargo distribution, and environmental conditions. Engineers and naval architects use sophisticated software to simulate different scenarios and determine the optimal ballast configuration. This meticulous planning ensures that the vessel remains upright and stable under all circumstances.Moreover, the ballasted condition is not only critical for large ships but also for smaller boats and even offshore structures like oil rigs. In these cases, the principles of ballasting apply similarly; adding weight helps to secure the structure against forces such as wind and waves. For example, in offshore drilling operations, maintaining a ballasted condition is essential to ensure that drilling platforms do not sway or tip over, which could result in catastrophic failures.In addition to safety, the ballasted condition also impacts fuel efficiency. A well-ballasted ship can reduce drag and improve its speed, allowing it to travel more efficiently across the water. This consideration is particularly important in commercial shipping, where operating costs are closely tied to fuel consumption. By optimizing the ballasted condition, shipping companies can save significant amounts of money while also reducing their environmental footprint.Furthermore, the concept of a ballasted condition can be metaphorically applied to various aspects of life. Just as ships require balance to operate effectively, individuals and organizations must find their own equilibrium to thrive. Whether it's balancing work and personal life or managing resources within a company, achieving a ballasted condition can lead to greater success and stability.In conclusion, the ballasted condition is a fundamental principle in maritime engineering that ensures the safety and efficiency of vessels. By understanding and applying this concept, engineers can design ships that withstand the challenges of the sea. Additionally, the broader implications of achieving balance in various contexts remind us that stability is essential not only in engineering but also in our daily lives. Therefore, recognizing the importance of a ballasted condition can lead to better decision-making and improved outcomes in both professional and personal arenas.

在工程和海事操作的世界中，术语ballasted condition指的是通过添加重量（通常是水或其他材料）来稳定船只或结构的状态。这个概念对于确保安全和功能至关重要，特别是在船舶和潜艇中。当一艘船处于ballasted condition时，它实现了较低的重心，这有助于防止倾覆并增强其在恶劣水域中的航行能力。为了更好地理解ballasted condition的重要性，我们可以看看现代船舶的设计和操作。这些船只被设计用来在广阔的海洋中运输重载，其稳定性至关重要。如果没有适当的压载，一艘船可能会变得失去平衡，从而导致灾难性的后果。例如，在风暴或波涛汹涌的海面上，如果一艘船没有得到充分的压载，可能会过度倾斜，危及船员和货物的安全。实现ballasted condition的过程涉及根据各种因素（包括船只的重量、货物分布和环境条件）仔细计算所需的压载量。工程师和海军建筑师使用复杂的软件来模拟不同的场景，并确定最佳的压载配置。这种细致的规划确保了船只在各种情况下保持直立和稳定。此外，ballasted condition不仅对大型船舶至关重要，对小型船只甚至海上结构如石油钻井平台也同样重要。在这些情况下，压载的原则类似；添加重量有助于抵御风浪等力量。例如，在海上钻探作业中，保持ballasted condition对于确保钻井平台不摇摆或倾斜至关重要，这可能导致灾难性的故障。除了安全性外，ballasted condition还影响燃油效率。一艘良好压载的船只可以减少阻力，提高速度，使其在水面上更加高效地航行。这一点在商业航运中尤为重要，因为运营成本与燃料消耗密切相关。通过优化ballasted condition，航运公司可以节省大量资金，同时减少对环境的影响。此外，ballasted condition的概念在生活的各个方面也可以比喻性地应用。就像船只需要平衡才能有效运作一样，个人和组织也必须找到自己的平衡才能繁荣。无论是平衡工作和个人生活，还是在公司内部管理资源，实现ballasted condition都可以带来更大的成功和稳定。总之，ballasted condition是海事工程中的一个基本原则，确保船舶的安全和效率。通过理解和应用这一概念，工程师可以设计出能够应对海洋挑战的船只。此外，实现各种背景下的平衡的更广泛意义提醒我们，稳定性不仅在工程中至关重要，也在我们的日常生活中。因此，认识到ballasted condition的重要性可以促进更好的决策和改善专业与个人领域的结果。