asymmetric hull

简明释义

线型不对称船壳

英英释义

例句

1.The research focused on how an asymmetric hull can reduce drag in marine vessels.

研究集中在不对称船体如何减少海洋船只的阻力。

2.By incorporating an asymmetric hull, the submarine achieved greater stealth capabilities.

通过引入不对称船体，该潜艇实现了更强的隐蔽能力。

3.Engineers utilized an asymmetric hull in the new yacht to enhance stability in rough waters.

工程师在新游艇中使用了不对称船体，以增强在波涛汹涌水域中的稳定性。

4.The asymmetric hull of the racing car allowed for better aerodynamics at high speeds.

这辆赛车的不对称车身在高速行驶时提供了更好的空气动力学性能。

5.The design of the boat featured an asymmetric hull, which improved its speed and maneuverability.

这艘船的设计采用了不对称船体，提高了其速度和机动性。

作文

In the world of naval architecture and marine engineering, the design of a vessel's hull is crucial for its performance and efficiency. One term that often arises in this field is asymmetric hull, which refers to a hull shape that is not symmetrical about its centerline. This design can provide several advantages over traditional symmetric hulls, particularly in terms of maneuverability and speed. The concept of an asymmetric hull is particularly relevant in the design of high-speed vessels, such as racing boats or military ships. These vessels benefit from a hull that is shaped to reduce drag and enhance stability during rapid movement. For instance, an asymmetric hull can allow for better weight distribution, which helps in maintaining balance and control when navigating through turbulent waters. One of the primary benefits of an asymmetric hull is its ability to cut through waves more efficiently than a symmetric hull. The unique shape allows the vessel to slice through water, minimizing resistance and enabling higher speeds. This characteristic is especially important in competitive sailing, where even the smallest advantage can make a significant difference in race outcomes. Additionally, the design of an asymmetric hull can improve a vessel's turning capabilities. Traditional symmetric hulls may struggle with sharp turns due to their uniform shape, which can cause them to skid or lose control. However, an asymmetric hull can create a more pronounced turning radius, allowing for quicker and more agile maneuvers. This feature is essential for vessels that need to navigate tight spaces or evade obstacles swiftly. Moreover, the asymmetric hull design can also contribute to fuel efficiency. By optimizing the shape of the hull to reduce drag, vessels can achieve better fuel consumption rates. This is particularly relevant in today's world, where environmental concerns and fuel costs are paramount. A vessel designed with an asymmetric hull can travel longer distances on less fuel, making it a more sustainable choice for both commercial and recreational boating. However, designing an asymmetric hull is not without its challenges. Engineers must carefully consider the materials used and the overall structural integrity of the vessel. Asymmetry can introduce complexities in how forces are distributed across the hull, which may require advanced engineering solutions to ensure safety and durability. Additionally, the construction of such hulls may involve higher costs due to the need for specialized designs and manufacturing techniques. In conclusion, the asymmetric hull represents a significant advancement in hull design, offering various benefits in terms of speed, maneuverability, and fuel efficiency. As the maritime industry continues to evolve, the adoption of innovative designs like the asymmetric hull will likely play a pivotal role in shaping the future of marine transportation. With careful consideration and engineering expertise, vessels equipped with asymmetric hulls can achieve remarkable performance, pushing the boundaries of what is possible in naval architecture. As we move forward, it will be interesting to observe how this design philosophy influences new vessel concepts and the overall landscape of marine engineering.

在海洋建筑和海洋工程的世界中，船只船体的设计对于其性能和效率至关重要。一个常常出现在这个领域的术语是不对称船体，它指的是一种形状在中心线两侧不对称的船体设计。这种设计相较于传统的对称船体，特别是在机动性和速度方面，可以提供若干优势。不对称船体的概念在高速船只的设计中尤为相关，例如赛车艇或军舰。这些船只受益于一种形状可以减少阻力并增强快速移动时的稳定性的船体。例如，不对称船体可以允许更好的重量分布，这有助于在穿越波涛汹涌的水域时保持平衡和控制。不对称船体的主要优点之一是其能够比对称船体更高效地切入波浪。独特的形状使得船只能够切割水面，最小化阻力，从而实现更高的速度。这一特性在竞技帆船中尤为重要，因为即使是最小的优势也可能在比赛结果中产生显著影响。此外，不对称船体的设计还可以改善船只的转向能力。传统的对称船体在急转弯时可能会因其均匀的形状而挣扎，导致滑行或失去控制。然而，不对称船体可以创造出更明显的转弯半径，使得船只能够更快、更灵活地进行机动。这一特性对于需要在狭窄空间内导航或迅速避开障碍物的船只至关重要。此外，不对称船体的设计还可以提高燃油效率。通过优化船体的形状以减少阻力，船只可以实现更好的燃料消耗率。这在当今世界尤其相关，环境问题和燃料成本是重中之重。采用不对称船体设计的船只可以在更少的燃料上行驶更长的距离，使其成为商业和休闲航行的更可持续选择。然而，设计不对称船体并非没有挑战。工程师必须仔细考虑所使用的材料和船只的整体结构完整性。非对称性可能会引入船体各处力的分布复杂性，这可能需要先进的工程解决方案来确保安全和耐用性。此外，由于需要特殊的设计和制造技术，这类船体的建造可能涉及更高的成本。总之，不对称船体代表了船体设计的一项重大进步，在速度、机动性和燃油效率方面提供了多种好处。随着海洋产业的不断发展，像不对称船体这样的创新设计的采用可能在塑造未来海洋运输方面发挥关键作用。通过仔细的考虑和工程专业知识，配备不对称船体的船只可以实现卓越的性能，推动海洋建筑领域的可能性边界。展望未来，观察这种设计理念如何影响新船舶概念及整体海洋工程格局将会非常有趣。