immersed midship section

简明释义

浸水船中剖面

英英释义

例句

1.To improve fuel efficiency, the team focused on optimizing the shape of the immersed midship section (浸没中部截面).

为了提高燃油效率，团队专注于优化浸没中部截面（浸没中部截面）的形状。

2.The design of the ship's hull must account for the effects on the immersed midship section (浸没中部截面) to ensure optimal stability.

船体的设计必须考虑对浸没中部截面（浸没中部截面）的影响，以确保最佳稳定性。

3.Engineers analyzed the hydrodynamic performance of the immersed midship section (浸没中部截面) during simulations.

工程师在模拟中分析了浸没中部截面（浸没中部截面）的水动力性能。

4.Measurements of the immersed midship section (浸没中部截面) were taken to assess the ship's performance.

对浸没中部截面（浸没中部截面）进行了测量，以评估船舶的性能。

5.The immersed midship section (浸没中部截面) plays a crucial role in determining the vessel's resistance in water.

浸没中部截面（浸没中部截面）在确定船舶在水中阻力方面起着至关重要的作用。

作文

The design and construction of ships involve a multitude of complex engineering principles, one of which is the concept of the immersed midship section. This term refers to the portion of a ship's hull that is submerged underwater when the vessel is floating. Understanding the immersed midship section is crucial for naval architects and marine engineers as it significantly influences the vessel's stability, buoyancy, and hydrodynamic performance.When a ship is designed, the immersed midship section must be carefully calculated to ensure that the ship can carry its intended load without compromising safety or performance. The shape and size of this section determine how water flows around the hull, which affects drag and fuel efficiency. A well-designed immersed midship section can minimize resistance, allowing the ship to move more efficiently through the water.Additionally, the immersed midship section plays a vital role in the overall stability of the vessel. Stability is influenced by the center of gravity and the center of buoyancy, both of which are affected by the shape of the immersed midship section. If the midship section is too narrow or too wide, it can lead to issues such as rolling or pitching, which can endanger the ship and its crew. Therefore, naval architects must strike a balance between aesthetic design and functional performance when creating the immersed midship section.In modern shipbuilding, computational fluid dynamics (CFD) is often employed to analyze the flow of water around the immersed midship section. This technology allows engineers to simulate various conditions and optimize the hull design before construction begins. By using CFD, they can test different shapes and configurations to find the most efficient design for the immersed midship section, ultimately leading to better fuel economy and enhanced performance.Moreover, the immersed midship section is not only important for large commercial vessels but also for smaller crafts, including yachts and fishing boats. Each type of vessel requires a specific design tailored to its purpose, and understanding the implications of the immersed midship section is essential for achieving the desired performance characteristics.In summary, the immersed midship section is a fundamental aspect of ship design that impacts various performance metrics, including stability, buoyancy, and hydrodynamics. Naval architects and marine engineers must consider this section's shape and size meticulously to ensure safe and efficient vessel operation. As technology advances, tools like CFD will continue to enhance our understanding and optimization of the immersed midship section, paving the way for more innovative and efficient ship designs in the future.

船舶的设计和建造涉及众多复杂的工程原理，其中一个概念是浸没中部截面。这个术语指的是船体在漂浮时浸没在水下的部分。理解浸没中部截面对于海军建筑师和海洋工程师至关重要，因为它显著影响船舶的稳定性、浮力和水动力性能。在设计船舶时，必须仔细计算浸没中部截面，以确保船舶能够在不妨碍安全或性能的情况下承载其预期负荷。这个部分的形状和大小决定了水流如何绕过船体，这影响了阻力和燃油效率。设计良好的浸没中部截面可以最小化阻力，使船舶能够更有效地穿越水域。此外，浸没中部截面在船舶整体稳定性中也起着至关重要的作用。稳定性受重心和浮心的影响，而这两者都受到浸没中部截面形状的影响。如果中部截面过窄或过宽，可能会导致摇摆或俯仰等问题，从而危及船舶及其船员的安全。因此，海军建筑师在创建浸没中部截面时，必须在美观设计和功能性能之间找到平衡。在现代造船中，计算流体力学（CFD）通常用于分析水流绕过浸没中部截面的情况。这项技术使工程师能够模拟各种条件，并在施工开始之前优化船体设计。通过使用CFD，他们可以测试不同的形状和配置，以找到浸没中部截面的最佳设计，最终提高燃油经济性和增强性能。此外，浸没中部截面不仅对大型商业船舶重要，对于包括游艇和渔船在内的小型船只同样如此。每种类型的船舶都需要针对其目的量身定制特定设计，而理解浸没中部截面的影响对实现所需的性能特征至关重要。总之，浸没中部截面是船舶设计的基本方面，影响着包括稳定性、浮力和水动力学在内的各种性能指标。海军建筑师和海洋工程师必须仔细考虑该部分的形状和大小，以确保船舶安全高效地运行。随着技术的进步，像CFD这样的工具将继续增强我们对浸没中部截面的理解和优化，为未来更具创新性和高效的船舶设计铺平道路。