draft-deadweight scale
简明释义
吃水载重量标尺
英英释义
例句
1.Before departure, the team reviewed the draft-deadweight scale to optimize fuel efficiency.
在出发前,团队检查了吃水-载重标尺以优化燃油效率。
2.The captain checked the draft-deadweight scale to ensure the vessel was loaded correctly.
船长检查了吃水-载重标尺以确保船只装载正确。
3.Using the draft-deadweight scale, the crew calculated how much cargo they could safely carry.
使用吃水-载重标尺,船员计算他们可以安全运输的货物量。
4.Understanding the draft-deadweight scale is crucial for safe navigation.
理解吃水-载重标尺对安全导航至关重要。
5.The draft-deadweight scale helps to prevent overloading the ship.
吃水-载重标尺有助于防止船只超载。
作文
The maritime industry is filled with complex terminologies and concepts that are essential for understanding the performance and capabilities of ships. One such important term is the draft-deadweight scale, which plays a crucial role in determining a vessel's capacity and stability. In simple terms, the draft-deadweight scale refers to a graphical representation that shows the relationship between a ship's draft—the vertical distance between the waterline and the bottom of the hull—and its deadweight tonnage, which is the total weight a ship can safely carry, including cargo, fuel, crew, and provisions.Understanding the draft-deadweight scale is vital for ship operators and maritime engineers as it helps them assess how much cargo a vessel can transport without compromising safety. When a ship is loaded, its draft increases, which affects its buoyancy and stability. The draft-deadweight scale provides a clear visual guide to help mariners understand how loading different amounts of cargo will impact the vessel's performance in water. This scale is typically represented in a graph where the x-axis indicates the draft and the y-axis indicates the deadweight tonnage.For instance, if a ship has a maximum deadweight capacity of 20,000 tons, the draft-deadweight scale will illustrate the corresponding drafts at which this weight can be safely carried. If the ship is loaded beyond its maximum capacity, it risks sinking or capsizing, which can lead to catastrophic consequences. Therefore, utilizing the draft-deadweight scale allows ship operators to make informed decisions about loading and unloading operations.Moreover, the draft-deadweight scale is not only beneficial for ensuring the safety of the vessel but also for optimizing operational efficiency. By analyzing the scale, ship operators can determine the best loading configurations that maximize cargo capacity while maintaining safety standards. This is especially important in commercial shipping, where the profitability of each voyage depends significantly on the amount of cargo transported.In addition to its practical applications, the draft-deadweight scale also has implications for environmental considerations. Overloading a vessel can lead to increased fuel consumption and emissions, contributing to marine pollution and climate change. By adhering to the guidelines provided by the draft-deadweight scale, ship operators can minimize their environmental footprint while still meeting their commercial objectives.In conclusion, the draft-deadweight scale is an indispensable tool in the maritime industry, combining safety, efficiency, and environmental responsibility. It serves as a fundamental reference for ship operators and engineers, enabling them to navigate the complexities of loading and stability. As the shipping industry continues to evolve with advancements in technology and stricter regulations, understanding and utilizing the draft-deadweight scale will remain crucial for the safe and efficient operation of vessels at sea.
海事行业充满了复杂的术语和概念,这些都是理解船舶性能和能力的关键。其中一个重要的术语是吃水-死重尺度,它在确定船舶的载货能力和稳定性方面发挥着至关重要的作用。简单来说,吃水-死重尺度指的是一种图形表示,显示了船舶吃水(即水线与船体底部之间的垂直距离)与其死重吨位(即船舶可以安全运载的总重量,包括货物、燃料、船员和补给品)之间的关系。理解吃水-死重尺度对船舶运营商和海事工程师至关重要,因为它帮助他们评估一艘船可以运输多少货物而不影响安全。当船舶装载时,其吃水增加,这会影响其浮力和稳定性。吃水-死重尺度提供了一个清晰的视觉指南,帮助海员理解装载不同数量的货物将如何影响船舶在水中的性能。该尺度通常以图表形式呈现,x轴表示吃水,y轴表示死重吨位。例如,如果一艘船的最大死重容量为20000吨,则吃水-死重尺度将展示在安全运输此重量时对应的吃水。如果船舶超载,将面临沉没或倾覆的风险,这可能导致灾难性后果。因此,利用吃水-死重尺度使船舶运营商能够对装载和卸载操作做出明智的决策。此外,吃水-死重尺度不仅有助于确保船舶的安全,还有助于优化运营效率。通过分析该尺度,船舶运营商可以确定最佳装载配置,以最大化货物容量,同时保持安全标准。这在商业航运中尤为重要,因为每次航行的盈利能力在很大程度上取决于运输的货物数量。除了其实际应用外,吃水-死重尺度还对环境考虑具有影响。超载船舶可能导致燃料消耗和排放增加,从而对海洋污染和气候变化产生贡献。通过遵循吃水-死重尺度提供的指南,船舶运营商可以在满足商业目标的同时,尽量减少其环境足迹。总之,吃水-死重尺度是海事行业不可或缺的工具,结合了安全性、效率和环境责任。它作为船舶运营商和工程师的基本参考,使他们能够应对装载和稳定性的复杂性。随着航运业在技术进步和更严格法规下不断发展,理解和利用吃水-死重尺度将始终对船舶在海上的安全和高效运营至关重要。
