highly faired hull

简明释义

流线型船体

英英释义

例句

1.The engineer designed a boat with a highly faired hull to improve its speed and efficiency.

工程师设计了一艘具有高度整流的船体的船，以提高其速度和效率。

2.The design team focused on creating a highly faired hull to enhance the boat's handling in rough seas.

设计团队专注于创造一个高度整流的船体以增强船只在恶劣海况下的操控性。

3.Sailboats with a highly faired hull tend to perform better during competitions due to their streamlined shape.

由于流线型的形状，具有高度整流的船体的帆船在比赛中往往表现更好。

4.A highly faired hull can significantly reduce drag in water, making it ideal for racing yachts.

一个高度整流的船体可以显著减少水中的阻力，使其非常适合比赛帆船。

5.When constructing a new vessel, consider using a highly faired hull for optimal performance.

在建造新船时，考虑使用高度整流的船体以获得最佳性能。

作文

In the world of naval architecture and marine engineering, the design of a vessel plays a crucial role in its performance and efficiency. One key aspect of this design is the shape of the hull, which directly affects how the vessel interacts with water. A term that frequently comes up in discussions about advanced hull designs is the highly faired hull. This concept refers to a hull that has been shaped and smoothed in such a way that it minimizes resistance as the vessel moves through water. The process of fairing involves adjusting the contours of the hull to achieve an optimal aerodynamic or hydrodynamic profile.The importance of a highly faired hull cannot be overstated. In practical terms, a well-designed hull can lead to significant improvements in speed and fuel efficiency. For example, racing yachts and high-performance boats often feature highly faired hulls to ensure they can cut through the water with minimal drag. This not only enhances their speed but also reduces the amount of energy required to maintain that speed, which is particularly important in competitive environments.Moreover, the benefits of a highly faired hull extend beyond just speed. Such designs can improve stability and handling, making vessels easier to maneuver in various conditions. This is especially relevant for larger ships, where stability is a critical factor for safety and operational efficiency. A highly faired hull helps distribute the weight of the vessel more evenly, reducing the risk of capsizing and allowing for smoother navigation through waves.In addition to performance advantages, there are also environmental considerations associated with highly faired hulls. By reducing drag, these hulls can decrease fuel consumption, leading to lower emissions and a reduced carbon footprint. As the maritime industry increasingly focuses on sustainability, the adoption of highly faired hull designs can contribute to greener shipping practices.However, achieving a highly faired hull is not without its challenges. The process requires advanced computational modeling and testing to ensure that the desired shapes are both effective and feasible. Engineers must consider various factors, including the type of vessel, its intended use, and the specific water conditions it will encounter. This complexity means that while the end result—a highly faired hull—is beneficial, getting there requires significant expertise and investment.In conclusion, the concept of a highly faired hull is integral to modern marine design. It encapsulates the balance between form and function, emphasizing the need for efficiency in an increasingly competitive and environmentally conscious world. Whether for racing, commercial shipping, or recreational boating, the principles behind a highly faired hull continue to shape the future of naval architecture. As technology advances, we can expect to see even more innovative designs that push the boundaries of what is possible in hull design, further enhancing performance and sustainability in the maritime sector.

在海洋建筑和海洋工程的世界中，船只的设计在其性能和效率中扮演着至关重要的角色。船体的形状是这一设计的一个关键方面，它直接影响到船只与水的互动。一个常常出现在关于先进船体设计讨论中的术语是高流线型船体。这个概念指的是经过塑造和平滑处理的船体，以最小化船只在水中移动时的阻力。流线型处理的过程涉及调整船体的轮廓，以实现最佳的空气动力学或水动力学特征。高流线型船体的重要性不容小觑。在实际操作中，设计良好的船体可以显著提高速度和燃油效率。例如，竞赛帆船和高性能船只通常具有高流线型船体，以确保它们能够以最小的阻力切割水面。这不仅增强了它们的速度，还减少了维持该速度所需的能量，这在竞争环境中尤为重要。此外，高流线型船体的好处不仅限于速度。这种设计可以提高稳定性和操控性，使船只在各种条件下更易于操纵。这一点对于大型船只尤其相关，因为稳定性是安全和操作效率的关键因素。高流线型船体有助于更加均匀地分配船只的重量，降低翻覆的风险，并允许更平稳地穿越波浪。除了性能优势之外，高流线型船体还涉及环境方面的考虑。通过减少阻力，这些船体可以降低燃油消耗，从而减少排放并降低碳足迹。随着海运行业越来越关注可持续发展，采用高流线型船体设计可以为更环保的航运实践做出贡献。然而，实现高流线型船体并非没有挑战。这个过程需要先进的计算建模和测试，以确保所需的形状既有效又可行。工程师必须考虑各种因素，包括船只的类型、预期用途以及它将在遇到的特定水域条件。这种复杂性意味着，虽然最终结果——高流线型船体——是有益的，但达到这一目标需要大量的专业知识和投资。总之，高流线型船体的概念是现代海洋设计中不可或缺的一部分。它概括了形式与功能之间的平衡，强调了在日益竞争激烈和环保意识增强的世界中对效率的需求。无论是用于竞赛、商业航运还是休闲航行，高流线型船体背后的原则继续塑造海洋建筑的未来。随着技术的进步，我们可以期待看到更多创新设计，推动船体设计的可能性边界，进一步提高海事部门的性能和可持续性。