ship geometry

简明释义

船舶几何尺寸

英英释义

例句

1.Engineers must consider ship geometry 船舶几何形状 when calculating stability and buoyancy.

工程师在计算稳定性和浮力时必须考虑船舶几何形状。

2.Understanding the ship geometry 船舶几何形状 is crucial for naval architects when creating new vessels.

理解船舶几何形状对于造船师在设计新船时至关重要。

3.The ship geometry 船舶几何形状 affects how the vessel interacts with waves and currents.

船舶的船舶几何形状影响船只与波浪和水流的相互作用。

4.Advanced software can simulate various ship geometry 船舶几何形状 designs to predict performance.

先进的软件可以模拟各种船舶几何形状设计，以预测性能。

5.The design team focused on optimizing the ship geometry 船舶几何形状 to improve fuel efficiency.

设计团队专注于优化船舶几何形状以提高燃油效率。

作文

The design and construction of ships is a complex process that requires a deep understanding of various factors, one of the most crucial being ship geometry. 船舶几何 refers to the physical shape and dimensions of a ship, which significantly influence its performance, stability, and efficiency in water. Understanding ship geometry is essential for naval architects and engineers as they strive to create vessels that can withstand the harsh marine environment while meeting specific operational requirements.When we talk about ship geometry, we are essentially discussing the hull shape, size, and configuration of a vessel. The hull is the main body of the ship, and its design affects how the ship interacts with water. For instance, a ship with a slender hull will experience less resistance when moving through water compared to a broader hull. This concept is vital for optimizing fuel efficiency and speed, especially in commercial shipping where operating costs are a significant concern.Moreover, ship geometry plays a vital role in determining the ship's stability and buoyancy. A well-designed hull will ensure that the ship remains upright and balanced even in rough seas. This is particularly important for passenger ships and cargo vessels, where safety is paramount. Engineers must consider factors such as the center of gravity and the distribution of weight when designing the hull to ensure that it can handle various loads without compromising stability.Another aspect of ship geometry is the impact it has on maneuverability. Ships with a well-calibrated hull shape can navigate through tight spaces and make sharp turns more effectively. This is especially crucial in busy ports where space is limited, and precision is required to avoid accidents. The design of the bow and stern also contributes to how easily a ship can change direction, making ship geometry a key factor in maritime operations.Furthermore, advancements in technology have allowed for the simulation and modeling of ship geometry using sophisticated software. This enables designers to visualize and test different shapes and configurations before actual construction begins. By utilizing computational fluid dynamics (CFD), engineers can predict how different hull designs will perform in real-world conditions, leading to more efficient and effective ship designs.In conclusion, ship geometry is a fundamental aspect of naval architecture that encompasses the shape, size, and design of a vessel. Its implications are far-reaching, affecting everything from fuel efficiency and stability to safety and maneuverability. As the maritime industry continues to evolve, a thorough understanding of ship geometry will remain essential for creating innovative and reliable vessels that can meet the demands of modern shipping and transportation. The interplay between form and function in ship geometry is what ultimately defines the success of a ship in its operational environment, making it a topic of great importance in maritime engineering.

船舶的设计和建造是一个复杂的过程，需要深入理解各种因素，其中最关键的因素之一就是船舶几何。船舶几何指的是船舶的物理形状和尺寸，这对其在水中的性能、稳定性和效率有着显著影响。理解船舶几何对于海军建筑师和工程师至关重要，因为他们努力创造能够承受恶劣海洋环境并满足特定操作要求的船只。当我们谈论船舶几何时，实际上是在讨论船体的形状、大小和配置。船体是船舶的主体，其设计影响着船舶与水的相互作用。例如，具有纤细船体的船舶在水中移动时会比宽大的船体遇到更少的阻力。这个概念对于优化燃油效率和速度至关重要，尤其是在商业航运中，运营成本是一个重要的问题。此外，船舶几何在决定船舶的稳定性和浮力方面也起着至关重要的作用。设计良好的船体将确保船舶即使在波涛汹涌的海面上也能保持直立和平衡。这对于客船和货船尤其重要，因为安全是重中之重。工程师在设计船体时必须考虑重心和重量分布等因素，以确保其能够承受各种负载而不影响稳定性。船舶几何的另一个方面是它对操控性的影响。设计合理的船体可以更有效地在狭窄空间内航行并进行急转弯。这在空间有限且需要精确避免事故的繁忙港口中尤为重要。船头和船尾的设计也会影响船舶改变方向的难易程度，使得船舶几何成为海事操作中的关键因素。此外，技术的进步使得利用先进软件对船舶几何进行模拟和建模成为可能。这使得设计师可以在实际建造开始之前可视化和测试不同的形状和配置。通过使用计算流体动力学（CFD），工程师可以预测不同船体设计在现实条件下的表现，从而导致更高效和更有效的船舶设计。总之，船舶几何是海军建筑的一个基本方面，涵盖了船舶的形状、大小和设计。其影响深远，涉及燃油效率、稳定性、安全性和操控性等方方面面。随着海事行业的不断发展，对船舶几何的透彻理解将继续是创造出能够满足现代航运和运输需求的创新和可靠船舶的关键。船舶几何中形式与功能之间的相互作用最终定义了船舶在其操作环境中的成功，使其成为海事工程中一个非常重要的话题。