designed waterline curve

简明释义

设计水线曲线

英英释义

例句

1.During the design phase, we adjusted the designed waterline curve to improve fuel efficiency.

在设计阶段，我们调整了设计水线曲线以提高燃油效率。

2.Engineers must verify that the designed waterline curve meets regulatory standards.

工程师必须验证设计水线曲线是否符合监管标准。

3.The designed waterline curve helps in calculating the displacement of the ship.

该设计水线曲线有助于计算船舶的排水量。

4.Understanding the designed waterline curve is crucial for predicting how the ship will behave in different sea conditions.

理解设计水线曲线对于预测船舶在不同海况下的表现至关重要。

5.The naval architect presented the designed waterline curve to ensure the vessel's stability.

海军建筑师展示了设计水线曲线以确保船只的稳定性。

作文

In the field of naval architecture and marine engineering, the term designed waterline curve refers to a critical aspect of ship design that defines the shape and dimensions of a vessel when it is floating in water. The designed waterline curve is essentially a graphical representation that illustrates how the hull of the ship interacts with water at various loading conditions. Understanding this concept is vital for ensuring that a ship performs efficiently, remains stable, and can navigate safely through different sea conditions.The designed waterline curve is derived from the ship's overall design parameters, including its length, beam, draft, and displacement. It is plotted on a plan view of the ship's hull and shows the waterline at different stages of loading. For instance, as cargo is loaded onto the ship, the waterline will rise, and the curve will change accordingly. This information is crucial for naval architects, as it helps them to predict how the ship will behave under various conditions, including heavy seas or when carrying different types of cargo.One of the most important aspects of the designed waterline curve is its role in determining the vessel's stability. A well-designed waterline curve ensures that the center of gravity and the center of buoyancy are properly aligned, which is essential for maintaining the ship's upright position. If the designed waterline curve is not optimized, the ship may become unstable, leading to dangerous situations such as capsizing. Therefore, careful calculations and simulations are performed to ensure that the waterline curve meets safety standards.Furthermore, the designed waterline curve also influences the ship's hydrodynamic performance. A streamlined waterline curve can reduce resistance as the ship moves through the water, improving fuel efficiency and speed. This is particularly important in today’s maritime industry, where fuel costs are a significant concern. By optimizing the designed waterline curve, shipbuilders can create vessels that are not only safer but also more economical to operate.In addition to its technical implications, the designed waterline curve has aesthetic considerations as well. Many shipowners and operators desire vessels that are visually appealing, and the shape of the waterline can significantly influence the overall look of the ship. Designers often strive to create a balance between functionality and aesthetics, ensuring that the ship not only performs well but also attracts attention in the market.In conclusion, the designed waterline curve is a fundamental element in the design and construction of ships. It encompasses various aspects of naval architecture, including stability, hydrodynamics, and aesthetics. A thorough understanding of this concept allows engineers and designers to create vessels that are safe, efficient, and visually appealing. As the maritime industry continues to evolve, the importance of optimizing the designed waterline curve will only grow, making it an essential focus for future innovations in ship design.

在海洋建筑和海洋工程领域，术语设计水线曲线指的是船舶设计的一个关键方面，它定义了船只在水中漂浮时的形状和尺寸。设计水线曲线本质上是一个图形表示，说明船体在不同装载条件下如何与水相互作用。理解这个概念对于确保船舶高效运作、保持稳定以及能够安全航行于不同海况至关重要。设计水线曲线是从船舶的整体设计参数中得出的，包括其长度、宽度、吃水和排水量。它绘制在船体的平面图上，并显示在不同装载阶段的水线。例如，随着货物被装载到船上，水线将上升，曲线也会相应变化。这些信息对海洋建筑师至关重要，因为它帮助他们预测船舶在各种条件下的表现，包括恶劣海况或承载不同类型货物时的表现。设计水线曲线的一个重要方面是它在确定船舶稳定性中的作用。一个良好的设计水线曲线确保重心和浮心正确对齐，这对于保持船舶的直立位置至关重要。如果设计水线曲线没有优化，船舶可能会变得不稳定，从而导致危险情况，例如翻覆。因此，进行仔细的计算和模拟，以确保水线曲线符合安全标准。此外，设计水线曲线还影响船舶的水动力性能。流线型的水线曲线可以减少船舶在水中移动时的阻力，提高燃油效率和速度。在当今的海事行业中，燃料成本是一个重要的考虑因素。通过优化设计水线曲线，造船商可以创造出不仅安全而且经济运营的船舶。除了技术上的影响，设计水线曲线还有美学方面的考虑。许多船东和运营商希望船舶具有视觉吸引力，而水线的形状可以显著影响船舶的整体外观。设计师常常努力在功能性和美学之间取得平衡，确保船舶不仅表现良好，而且在市场上吸引注意。总之，设计水线曲线是船舶设计和建造中的基本元素。它涵盖了海洋建筑的各个方面，包括稳定性、水动力学和美学。对这一概念的透彻理解使工程师和设计师能够创造出安全、高效且视觉吸引的船舶。随着海事行业的不断发展，优化设计水线曲线的重要性只会增加，使其成为未来船舶设计创新的一个重要焦点。