immersed transom draft

简明释义

船尾处吃水

英英释义

例句

1.Adjusting the load helped optimize the immersed transom draft for better performance.

调整负载有助于优化浸入式横梁吃水以提高性能。

2.The captain checked the immersed transom draft to ensure the vessel was balanced.

船长检查了浸入式横梁吃水以确保船只平衡。

3.Understanding the immersed transom draft is crucial for navigating shallow waters.

了解浸入式横梁吃水对于在浅水区航行至关重要。

4.The engineer noted that the immersed transom draft increased with added cargo.

工程师注意到，随着货物增加，浸入式横梁吃水也随之增加。

5.For optimal fuel efficiency, the immersed transom draft must be carefully monitored.

为了最佳燃油效率，必须仔细监测浸入式横梁吃水。

作文

In the field of naval architecture, understanding various terms is crucial for both design and performance analysis of vessels. One such term that often comes up in discussions about ship stability and hydrodynamics is immersed transom draft. The immersed transom draft refers to the vertical distance from the waterline to the lowest point of the transom, which is the flat surface forming the stern of a boat or ship. This measurement is essential for determining how much of the vessel is submerged in water when at rest or in motion.The significance of the immersed transom draft cannot be overstated. It plays a pivotal role in assessing the overall stability of the vessel. A deeper draft generally indicates a more stable platform, as it lowers the center of gravity and increases the righting moment when the vessel heels over due to wind or waves. However, too deep of a draft can also lead to issues such as increased resistance while moving through the water, which can affect fuel efficiency and speed.When designing a vessel, naval architects must carefully consider the immersed transom draft alongside other factors such as hull shape, weight distribution, and intended use. For example, a fishing boat may require a different draft compared to a luxury yacht or a cargo ship. Each type of vessel has its own unique requirements for stability, maneuverability, and performance, and the immersed transom draft is a critical component of these calculations.Moreover, the immersed transom draft can change with loading conditions. As a vessel takes on cargo or passengers, its draft will increase, which may affect its performance characteristics. Therefore, it is vital for operators to monitor the draft regularly, especially in shallow waters where grounding could pose a significant risk. Understanding how the immersed transom draft interacts with other elements of vessel design helps in making informed decisions regarding loading and operational practices.In addition to stability and performance, the immersed transom draft also has implications for regulatory compliance. Many maritime authorities impose restrictions on the maximum draft for vessels operating in certain waterways or ports. These regulations are designed to prevent grounding and ensure safe navigation, particularly in areas with variable water levels. Operators must be aware of their vessel's immersed transom draft to avoid penalties and ensure compliance with local laws.In conclusion, the term immersed transom draft encapsulates a critical aspect of naval architecture that influences the design, stability, and operational safety of vessels. By understanding the implications of this measurement, designers and operators can work together to create efficient, safe, and compliant maritime solutions. Whether one is involved in the construction of new vessels or the management of existing fleets, a thorough grasp of the immersed transom draft is essential for success in the maritime industry.

在海洋建筑领域，理解各种术语对于船只的设计和性能分析至关重要。其中一个常常在讨论船舶稳定性和水动力学时出现的术语是浸没横梁吃水。浸没横梁吃水指的是水线到船尾最低点之间的垂直距离，船尾是构成船只或船舶尾部的平坦表面。这个测量对于确定船只在静止或运动时有多少部分浸入水中至关重要。浸没横梁吃水的重要性不容小觑。它在评估船只整体稳定性方面发挥着关键作用。较深的吃水通常表示更稳定的平台，因为它降低了重心并增加了当船只因风或波浪倾斜时的复原力矩。然而，吃水过深也可能导致船只在水中移动时阻力增加，从而影响燃油效率和速度。在设计船只时，海洋建筑师必须仔细考虑浸没横梁吃水以及其他因素，如船体形状、重量分布和预期用途。例如，一艘渔船可能需要与豪华游艇或货船不同的吃水要求。每种类型的船舶在稳定性、机动性和性能方面都有其独特的要求，而浸没横梁吃水是这些计算的关键组成部分。此外，浸没横梁吃水会随着装载条件的变化而变化。当船只装载货物或乘客时，其吃水将增加，这可能影响其性能特征。因此，操作人员必须定期监测吃水，特别是在浅水区，触礁可能会构成重大风险。理解浸没横梁吃水如何与船舶设计的其他元素相互作用，有助于做出有关装载和操作实践的明智决策。除了稳定性和性能外，浸没横梁吃水还对合规性产生影响。许多海事当局对在某些水道或港口运营的船舶施加最大吃水限制。这些规定旨在防止触礁，并确保安全航行，特别是在水位变化的地区。操作人员必须了解其船只的浸没横梁吃水，以避免处罚并确保遵守当地法律。总之，术语浸没横梁吃水概括了海洋建筑的一个关键方面，影响着船只的设计、稳定性和操作安全性。通过理解这一测量的影响，设计师和操作人员可以共同努力，创造高效、安全和合规的海事解决方案。无论是在新船舶的建造中，还是在现有船队的管理中，全面掌握浸没横梁吃水对于在海事行业取得成功至关重要。