Full Load Displacement

简明释义

满载排水量

英英释义

例句

1.The ship's Full Load Displacement 满载排水量 is crucial for determining its buoyancy and stability.

船只的满载排水量 Full Load Displacement 对于确定其浮力和稳定性至关重要。

2.A larger Full Load Displacement 满载排水量 often indicates a more robust vessel designed for heavy loads.

更大的满载排水量 Full Load Displacement 通常表示该船只设计用于承载重货，结构更加坚固。

3.Understanding the Full Load Displacement 满载排水量 helps in assessing the performance of the ship under varying conditions.

了解满载排水量 Full Load Displacement 有助于评估船只在不同条件下的性能。

4.The naval architect presented the Full Load Displacement 满载排水量 calculations during the design review.

海军建筑师在设计评审中展示了满载排水量 Full Load Displacement 的计算结果。

5.Engineers must calculate the Full Load Displacement 满载排水量 to ensure the vessel can carry its intended cargo safely.

工程师必须计算满载排水量 Full Load Displacement 以确保船只能够安全地承载其预期货物。

作文

In the world of naval architecture and marine engineering, understanding various technical terms is crucial for both professionals and enthusiasts. One such term that often arises in discussions about ship design and performance is Full Load Displacement. This concept refers to the total weight of a ship when it is fully loaded with cargo, fuel, passengers, and all other necessary supplies. Essentially, it represents the maximum weight that a vessel can safely carry while remaining afloat and operational. The Full Load Displacement is a critical factor in determining a ship's stability, buoyancy, and overall performance at sea.To comprehend the significance of Full Load Displacement, one must first understand the basic principles of buoyancy and weight distribution. According to Archimedes' principle, a floating object displaces a volume of water equal to its own weight. Therefore, the Full Load Displacement directly influences how much water a ship displaces when it is loaded to its maximum capacity. If a ship exceeds its Full Load Displacement, it risks capsizing or sinking, which can lead to catastrophic consequences.Moreover, naval architects must carefully calculate the Full Load Displacement during the design phase of a vessel. This calculation involves considering various factors, including the shape and size of the hull, the materials used in construction, and the intended purpose of the ship. For example, a cargo ship designed to transport heavy goods will have a different Full Load Displacement compared to a luxury cruise liner filled with passengers. Each type of vessel has unique design requirements that affect its Full Load Displacement and performance characteristics.In practice, the Full Load Displacement is not just a theoretical measurement; it has real-world implications for shipping companies and maritime operations. Knowing the Full Load Displacement allows operators to optimize loading procedures, ensuring that vessels are not overloaded or underloaded. An accurate understanding of a ship's Full Load Displacement also aids in compliance with safety regulations and international maritime laws, which are designed to prevent accidents at sea.Additionally, the Full Load Displacement can influence a ship's fuel efficiency and operational costs. A vessel that operates close to its Full Load Displacement may experience increased resistance in the water, leading to higher fuel consumption. Conversely, underloading a ship could result in wasted space and resources, ultimately affecting profitability. Therefore, striking the right balance concerning Full Load Displacement is essential for efficient maritime operations.In conclusion, the term Full Load Displacement encapsulates a fundamental aspect of ship design and operation. It is a measure of a ship's carrying capacity and plays a vital role in ensuring safety, stability, and efficiency at sea. Understanding this concept is essential not only for naval architects but also for anyone involved in maritime activities. By grasping the importance of Full Load Displacement, individuals can appreciate the complexities of ship design and the careful planning required to operate vessels safely and effectively.

在海洋建筑和海洋工程的世界中，理解各种技术术语对专业人士和爱好者来说至关重要。其中一个常常出现在船舶设计和性能讨论中的术语是满载排水量。这个概念指的是船舶在完全装载货物、燃料、乘客和所有其他必要物资时的总重量。基本上，它代表了一艘船在保持漂浮和可操作的情况下可以安全承载的最大重量。满载排水量是决定船舶稳定性、浮力和整体海上性能的关键因素。要理解满载排水量的重要性，首先必须了解浮力和重量分配的基本原理。根据阿基米德原理，漂浮物体排开与其自身重量相等的水量。因此，满载排水量直接影响一艘船在达到其最大承载能力时排开的水量。如果一艘船超过了其满载排水量，则有翻覆或沉没的风险，这可能导致灾难性的后果。此外，海军建筑师必须在船舶设计阶段仔细计算满载排水量。这个计算涉及考虑各种因素，包括船体的形状和大小、所用材料以及船舶的预期用途。例如，设计用于运输重货的货船与装满乘客的豪华游轮的满载排水量将有所不同。每种类型的船舶都有独特的设计要求，影响其满载排水量和性能特征。在实践中，满载排水量不仅仅是一个理论测量；它对航运公司和海事运营具有现实世界的影响。了解满载排水量使操作人员能够优化装载程序，确保船舶不会超载或欠载。准确理解船舶的满载排水量还有助于遵守安全法规和国际海事法，这些法规旨在防止海上事故。此外，满载排水量还可以影响船舶的燃油效率和运营成本。一艘接近其满载排水量运行的船舶可能会在水中遇到增加的阻力，导致燃油消耗增加。相反，欠载船舶可能导致空间和资源的浪费，最终影响盈利能力。因此，在满载排水量方面找到正确的平衡对于高效的海事运营至关重要。总之，术语满载排水量概括了船舶设计和操作的基本方面。它是船舶承载能力的衡量标准，在确保安全、稳定和海上效率方面发挥着至关重要的作用。理解这一概念不仅对海军建筑师至关重要，对任何参与海事活动的人来说也同样重要。通过掌握满载排水量的重要性，个人可以欣赏船舶设计的复杂性以及安全有效地操作船舶所需的周密规划。