midship section area
简明释义
船中剖面面积
英英释义
例句
1.Engineers calculate the midship section area 中部截面面积 to optimize the hull shape for better hydrodynamics.
工程师计算中部截面面积 midship section area以优化船体形状,以获得更好的水动力学性能。
2.The midship section area 中部截面面积 affects the overall buoyancy of the ship.
船舶的中部截面面积 midship section area影响整体浮力。
3.The design of the vessel must take into account the midship section area 中部截面面积 to ensure stability.
船舶的设计必须考虑到中部截面面积 midship section area以确保稳定性。
4.Naval architects often use software to analyze the midship section area 中部截面面积 during the design phase.
海军建筑师通常使用软件在设计阶段分析中部截面面积 midship section area。
5.A larger midship section area 中部截面面积 can lead to increased cargo capacity.
较大的中部截面面积 midship section area可以增加货物容量。
作文
The design and construction of ships involve a multitude of complex factors, one of which is the understanding of the midship section area. This term refers to the cross-sectional area of a ship at its midpoint, which is crucial for determining various aspects of the vessel's performance. The midship section area plays a significant role in hydrodynamics, stability, and overall efficiency of the ship. When engineers design a ship, they must carefully consider the shape and size of this area to ensure that it can navigate through water effectively while maintaining balance and stability. One of the primary functions of the midship section area is to influence the resistance the ship encounters as it moves through water. A well-designed midship section can minimize drag, allowing the vessel to travel faster and consume less fuel. This is particularly important in today’s world, where fuel efficiency is paramount due to rising costs and environmental concerns. By optimizing the midship section area, naval architects can create vessels that are not only faster but also more sustainable.In addition to hydrodynamic performance, the midship section area is vital for assessing the ship's stability. Stability is essential for ensuring that the vessel remains upright and does not capsize under various conditions. A larger midship section area can provide greater buoyancy, which helps keep the ship stable, especially in rough seas. However, too large of an area may lead to excessive weight, affecting the ship’s overall performance. Therefore, naval architects must strike a balance when designing the midship section area to achieve optimal stability without compromising speed or efficiency.Moreover, the midship section area affects the internal layout of the ship. The design of this area dictates how space is allocated for various compartments, such as cargo holds, living quarters, and engine rooms. A well-planned midship section allows for better utilization of space, which can enhance the ship's operational capabilities. For instance, if the midship section area is designed efficiently, it can accommodate more cargo, thereby increasing the ship's profitability.Furthermore, the midship section area is also an essential factor when considering the ship's structural integrity. The stresses and strains experienced by a vessel during its operation are significantly influenced by the design of the midship section. Engineers must ensure that this area can withstand the forces exerted on it, especially during harsh weather conditions. A robust midship section area contributes to the overall durability and longevity of the ship, reducing maintenance costs and enhancing safety.In conclusion, the midship section area is a critical element in ship design that affects hydrodynamic performance, stability, internal layout, and structural integrity. Understanding this concept is essential for anyone involved in naval architecture or marine engineering. As the maritime industry continues to evolve, the importance of optimizing the midship section area will only grow, leading to advancements in ship design that promote efficiency and sustainability. Through careful consideration of this area, engineers can create vessels that not only meet the demands of modern shipping but also contribute to a greener future for our oceans.
船舶的设计和建造涉及许多复杂的因素,其中之一是对中部断面面积的理解和掌握。这个术语指的是船舶在其中点的横截面积,这对于确定船舶性能的各个方面至关重要。中部断面面积在水动力学、稳定性和船舶整体效率中扮演着重要角色。当工程师设计一艘船时,必须仔细考虑该区域的形状和大小,以确保它能够有效地在水中航行,同时保持平衡和稳定。中部断面面积的主要功能之一是影响船舶在水中移动时遇到的阻力。一个设计良好的中部断面可以最小化阻力,使船只能够更快地航行并消耗更少的燃料。在当今世界,燃油效率至关重要,因为燃料成本不断上升以及环境问题日益严重。通过优化中部断面面积,海军建筑师可以设计出不仅更快而且更可持续的船舶。除了水动力性能外,中部断面面积对于评估船舶的稳定性也至关重要。稳定性对于确保船舶在各种条件下保持直立且不会倾覆至关重要。较大的中部断面面积可以提供更大的浮力,从而帮助船舶在恶劣海况下保持稳定。然而,过大的面积可能导致过重,影响船舶的整体性能。因此,海军建筑师在设计中部断面面积时必须找到平衡,以实现最佳稳定性而不影响速度或效率。此外,中部断面面积还影响船舶的内部布局。该区域的设计决定了货舱、居住区和机舱等各个舱室的空间分配。一个设计合理的中部断面可以更好地利用空间,从而增强船舶的操作能力。例如,如果中部断面面积设计得当,可以容纳更多的货物,从而增加船舶的盈利能力。此外,中部断面面积也是考虑船舶结构完整性的一个重要因素。在船舶运行过程中所经历的应力和压力在很大程度上受到中部断面的设计影响。工程师必须确保该区域能够承受施加在其上的力量,尤其是在恶劣天气条件下。坚固的中部断面面积有助于船舶的整体耐用性和使用寿命,降低维护成本,提高安全性。总之,中部断面面积是船舶设计中的一个关键要素,影响水动力性能、稳定性、内部布局和结构完整性。理解这一概念对于任何参与海军建筑或海洋工程的人来说都是至关重要的。随着海事行业的不断发展,优化中部断面面积的重要性只会增加,从而推动船舶设计的进步,促进效率和可持续性。通过对这一领域的仔细考虑,工程师可以设计出不仅能满足现代航运需求,而且能为我们海洋的绿色未来做出贡献的船舶。
