designwaterline breadth
简明释义
设计水线宽
英英释义
例句
1.Adjusting the designwaterline breadth can significantly affect the ship's performance in rough seas.
调整设计水线宽度可以显著影响船只在恶劣海况下的表现。
2.Our team proposed a wider designwaterline breadth to enhance the vessel's load distribution.
我们的团队建议增加设计水线宽度以增强船只的负载分布。
3.The designwaterline breadth is a critical factor in determining the cargo capacity of a freighter.
对于货轮来说,设计水线宽度是决定货物容量的关键因素。
4.The naval architect calculated the designwaterline breadth to ensure optimal stability for the vessel.
海军建筑师计算了设计水线宽度以确保船只的最佳稳定性。
5.During the design phase, we must finalize the designwaterline breadth to meet regulatory standards.
在设计阶段,我们必须确定设计水线宽度以符合监管标准。
作文
The term design waterline breadth refers to the width of a vessel at the waterline during its design phase. This measurement is crucial in naval architecture and marine engineering as it directly affects the stability, speed, and overall performance of the ship. The design waterline breadth is not merely a number; it represents the careful consideration of various factors that influence how a vessel interacts with water. When designing a ship, engineers must take into account the intended use of the vessel. For instance, a cargo ship may require a broader design waterline breadth to enhance stability when loaded with heavy goods. In contrast, a yacht might have a narrower design waterline breadth to achieve higher speeds and better maneuverability. Thus, understanding the implications of this measurement is essential for achieving the desired performance characteristics of the ship.Moreover, the design waterline breadth plays a significant role in determining the ship's resistance to waves and currents. A wider beam can help distribute the forces acting on the hull, thereby reducing the impact of rough seas. This is particularly important for vessels that operate in turbulent waters where stability is paramount. Engineers must carefully calculate the design waterline breadth to ensure that the ship can withstand various environmental conditions without compromising safety.Another aspect to consider is the relationship between the design waterline breadth and the ship's overall length. The ratio of length to breadth, known as the L/B ratio, is a critical factor in ship design. A well-balanced L/B ratio can lead to improved hydrodynamic efficiency, which in turn can result in lower fuel consumption and reduced operational costs. Therefore, the design waterline breadth must be optimized in relation to the vessel's length to achieve the best possible performance.In addition to performance considerations, the design waterline breadth also has implications for construction and maintenance. A wider beam may require more materials and labor during the building process, potentially increasing costs. Furthermore, a broader hull may necessitate different maintenance practices, especially when it comes to cleaning and inspecting the underwater sections of the ship. Shipbuilders and operators must weigh these factors against the benefits provided by a particular design waterline breadth.In conclusion, the design waterline breadth is a fundamental aspect of ship design that encompasses various engineering principles and practical considerations. It influences the vessel's stability, performance, and operational efficiency. By understanding the significance of this measurement, naval architects and marine engineers can create ships that not only meet regulatory standards but also excel in their intended roles. Ultimately, the careful calculation and implementation of the design waterline breadth are vital for the success of any maritime venture, ensuring that ships are safe, efficient, and capable of navigating the world's oceans with confidence.
术语设计水线宽度指的是船舶在设计阶段水线处的宽度。这个测量对海洋建筑和海洋工程至关重要,因为它直接影响到船只的稳定性、速度和整体性能。设计水线宽度不仅仅是一个数字;它代表了对多种因素的仔细考虑,这些因素影响着船舶与水的相互作用。在设计船舶时,工程师必须考虑船舶的预期用途。例如,一艘货船可能需要更宽的设计水线宽度以增强在装载重物时的稳定性。相比之下,一艘游艇可能会有较窄的设计水线宽度以实现更高的速度和更好的机动性。因此,理解这一测量的影响对于实现船舶所需的性能特征至关重要。此外,设计水线宽度在确定船舶对波浪和水流的阻力方面也发挥着重要作用。更宽的船体可以帮助分散作用在船体上的力量,从而减少在恶劣海况下的冲击。这对在动荡水域中航行的船舶尤为重要,因为稳定性至关重要。工程师必须仔细计算设计水线宽度,以确保船舶能够在各种环境条件下承受而不危及安全。另一个需要考虑的方面是设计水线宽度与船舶整体长度之间的关系。长度与宽度的比率,即L/B比率,是船舶设计中的一个关键因素。一个良好的L/B比率可以提高水动力效率,从而降低燃料消耗和运营成本。因此,设计水线宽度必须与船舶的长度优化,以实现最佳性能。除了性能考虑外,设计水线宽度还对建造和维护有影响。更宽的船体可能在建造过程中需要更多的材料和劳动力,从而可能增加成本。此外,更宽的船体可能需要不同的维护实践,特别是在清洁和检查船舶水下部分时。船舶建造者和运营者必须权衡这些因素与特定设计水线宽度所提供的好处。总之,设计水线宽度是船舶设计的基本方面,涵盖了各种工程原则和实际考虑。它影响着船舶的稳定性、性能和运营效率。通过理解这一测量的重要性,海洋建筑师和海洋工程师可以设计出不仅符合监管标准,而且在其预期角色中表现出色的船舶。最终,设计水线宽度的仔细计算和实施对于任何海事项目的成功都是至关重要的,确保船舶安全、高效,能够自信地航行于世界海洋。
