area of midship section
简明释义
船中剖面面积
英英释义
例句
1.The design of the vessel must consider the area of midship section to ensure stability.
船舶的设计必须考虑中部截面面积以确保稳定性。
2.A larger area of midship section can lead to increased cargo capacity.
更大的中部截面面积可以增加货物容量。
3.The area of midship section is critical for determining the vessel's buoyancy.
在确定船舶的浮力时,中部截面面积至关重要。
4.During the simulation, the area of midship section was adjusted to test different designs.
在模拟过程中,调整了中部截面面积以测试不同的设计。
5.Engineers calculated the area of midship section to optimize the ship's performance.
工程师计算了中部截面面积以优化船舶性能。
作文
The design and construction of ships involve numerous technical terms, one of which is the area of midship section. This term refers to the cross-sectional area of a ship at its midpoint, which is crucial for understanding the vessel's stability, buoyancy, and overall performance in water. The area of midship section plays an essential role in naval architecture and marine engineering, as it directly influences how a ship interacts with water and how it handles various sea conditions.When engineers design a ship, they must consider the area of midship section carefully. A larger midship section can provide more buoyancy, allowing the ship to carry heavier loads without sinking. However, if the midship section is too large, it may create resistance as the ship moves through the water, reducing its speed and efficiency. Conversely, a smaller midship section might improve speed but could compromise stability, especially in rough seas.To better understand the significance of the area of midship section, one must consider its impact on the ship's overall design. For instance, when designing a cargo ship, engineers strive for an optimal balance between the size of the midship section and the vessel's length and width. This balance ensures that the ship can carry a substantial amount of cargo while maintaining good maneuverability and stability.Moreover, the area of midship section is not only vital for cargo ships but also for passenger vessels, fishing boats, and military ships. Each type of vessel has different requirements based on its purpose, and the midship section must be tailored accordingly. For example, a cruise ship may have a broader midship section to provide larger cabins and amenities for passengers, while a naval destroyer might have a sleeker profile to enhance speed and agility.In addition to design considerations, the area of midship section is also crucial during the construction phase of a ship. Builders must ensure that the hull is constructed precisely according to the designed midship section to achieve the desired performance. Any deviations from the planned dimensions can lead to significant issues, such as instability or excessive drag, which can affect the ship's operational capabilities.Furthermore, the area of midship section can influence the ship's fuel efficiency. A well-designed midship section allows for smoother movement through water, reducing the energy required for propulsion. This efficiency is increasingly important in today's world, where environmental concerns and fuel costs are paramount. Shipbuilders are continuously researching and developing new designs to optimize the area of midship section for better fuel economy and reduced emissions.In conclusion, the area of midship section is a fundamental concept in ship design and construction. It significantly impacts a vessel's stability, buoyancy, speed, and fuel efficiency. Understanding this term is essential for anyone involved in naval architecture or marine engineering, as it lays the groundwork for creating ships that can perform effectively in various maritime environments. By carefully considering the area of midship section, engineers can design ships that not only meet the needs of their intended purpose but also adhere to modern standards of efficiency and environmental responsibility.
船舶的设计和建造涉及许多专业术语,其中一个术语是中部截面面积。该术语指的是船只在其中点的横截面面积,这对于理解船只在水中的稳定性、浮力和整体性能至关重要。中部截面面积在海洋建筑和海洋工程中发挥着重要作用,因为它直接影响船只与水的相互作用以及如何应对各种海况。当工程师设计船只时,必须仔细考虑中部截面面积。较大的中部截面可以提供更多的浮力,使船只能够在不下沉的情况下承载更重的负荷。然而,如果中部截面过大,可能会在船只通过水时产生阻力,从而降低速度和效率。相反,较小的中部截面可能会提高速度,但可能会在恶劣海况下危及稳定性。为了更好地理解中部截面面积的重要性,必须考虑其对船只整体设计的影响。例如,在设计货船时,工程师努力在中部截面大小与船只的长度和宽度之间找到最佳平衡。这种平衡确保船只能够携带大量货物,同时保持良好的机动性和稳定性。此外,中部截面面积不仅对货船至关重要,对客船、渔船和军舰也同样重要。每种类型的船只根据其用途有不同的要求,而中部截面必须相应调整。例如,游轮可能会有更宽的中部截面,以为乘客提供更大的客舱和设施,而海军驱逐舰则可能具有更流线型的外形,以增强速度和灵活性。除了设计考虑外,中部截面面积在船只的建造阶段也至关重要。建造者必须确保船体的构造严格按照设计的中部截面进行,以实现所需的性能。任何与计划尺寸的偏差都可能导致重大问题,例如不稳定或过大的阻力,这会影响船只的操作能力。此外,中部截面面积还可以影响船只的燃油效率。良好设计的中部截面允许船只更顺畅地穿越水域,从而减少推进所需的能量。在当今世界,环境问题和燃料成本至关重要,因此这一效率尤为重要。船舶制造商不断研究和开发新设计,以优化中部截面面积,以实现更好的燃油经济性和减少排放。总之,中部截面面积是船舶设计和建造中的一个基本概念。它对船只的稳定性、浮力、速度和燃油效率有显著影响。理解这个术语对于任何参与海洋建筑或海洋工程的人来说都是必不可少的,因为它为创建能够在各种海洋环境中有效运行的船只奠定了基础。通过仔细考虑中部截面面积,工程师可以设计出不仅满足预期用途需求,而且符合现代效率和环境责任标准的船只。
