curve of block coefficient

简明释义

方形系数曲线

英英释义

例句

1.The naval architect presented the curve of block coefficient during the project review meeting.

海军建筑师在项目审查会议上展示了块系数曲线。

2.When modeling the hydrodynamics, the curve of block coefficient plays a crucial role.

在建模水动力学时，块系数曲线起着至关重要的作用。

3.The design of the ship's hull must consider the curve of block coefficient to ensure optimal performance.

船体设计必须考虑块系数曲线以确保最佳性能。

4.A steeper curve of block coefficient indicates a more efficient hull shape for high-speed vessels.

更陡的块系数曲线表明高速度船只的更高效船体形状。

5.Engineers analyze the curve of block coefficient to predict the vessel's speed and fuel efficiency.

工程师分析块系数曲线以预测船只的速度和燃油效率。

作文

The design and analysis of ships and other marine vessels involve a multitude of factors, one of which is the curve of block coefficient. This term refers to a graphical representation that illustrates the relationship between the block coefficient and various parameters of a vessel's design. The block coefficient itself is a measure of the fullness of a ship's form, calculated as the ratio of the volume of the submerged part of the hull to the volume of a rectangular block with the same length, beam, and draft as the ship. A higher block coefficient indicates a fuller hull, which can affect the vessel's speed, stability, and fuel efficiency.Understanding the curve of block coefficient is crucial for naval architects and marine engineers. It helps them determine the optimal shape and size of a vessel to meet specific performance criteria. For instance, a ship with a high block coefficient might be designed for carrying heavy cargo, as it provides greater stability in rough seas. Conversely, a vessel with a lower block coefficient is often sleeker and faster, making it suitable for passenger transport or recreational purposes.When analyzing the curve of block coefficient, one must consider various factors such as the intended use of the vessel, the operating conditions, and the desired speed. The curve typically shows how changes in the block coefficient influence the resistance a vessel encounters while moving through water. By studying this curve, engineers can make informed decisions about the hull design, ensuring that it meets both performance and safety standards.Moreover, the curve of block coefficient is not static; it evolves with advancements in technology and changes in maritime regulations. For example, modern computational fluid dynamics (CFD) tools allow for more precise modeling of how different hull shapes perform in real-world conditions. As a result, the traditional understanding of the block coefficient and its associated curve may be refined, leading to more efficient and environmentally friendly vessel designs.In conclusion, the curve of block coefficient serves as an essential tool in the field of naval architecture. It encapsulates the relationship between a vessel's design parameters and its operational efficiency. By mastering the concepts surrounding this curve, professionals in the maritime industry can create vessels that not only meet functional requirements but also contribute to sustainability efforts in shipping. Understanding this curve is vital for anyone involved in ship design, as it directly impacts the overall performance and viability of marine vessels in today’s competitive market.

船舶和其他海洋船只的设计与分析涉及多个因素，其中之一就是块系数曲线。这个术语指的是一个图形表示，展示了块系数与船只设计的各种参数之间的关系。块系数本身是船体形状丰满程度的度量，计算方法是将船体浸没部分的体积与具有相同长度、宽度和吃水深度的矩形块的体积进行比较。较高的块系数表示船体更丰满，这可能影响船只的速度、稳定性和燃油效率。理解块系数曲线对海军建筑师和海洋工程师至关重要。它帮助他们确定船只的最佳形状和大小，以满足特定的性能标准。例如，具有高块系数的船可能被设计用于运载重货，因为它在恶劣海况下提供更大的稳定性。相反，块系数较低的船通常更加流线型和快速，适合乘客运输或休闲用途。在分析块系数曲线时，必须考虑各种因素，例如船只的预期用途、操作条件和所需速度。该曲线通常显示块系数的变化如何影响船只在水中移动时遇到的阻力。通过研究这条曲线，工程师可以就船体设计做出明智的决策，确保其符合性能和安全标准。此外，块系数曲线并不是静态的；它随着技术进步和海事法规的变化而演变。例如，现代计算流体动力学（CFD）工具允许更精确地建模不同船体形状在现实条件下的表现。因此，传统的块系数及其相关曲线的理解可能会得到完善，从而导致更高效和环保的船舶设计。总之，块系数曲线在海军建筑领域中作为一个重要工具。它概括了船只设计参数与其运行效率之间的关系。通过掌握围绕这一曲线的概念，海事行业的专业人士可以设计出不仅满足功能要求，还能为航运可持续发展努力做出贡献的船只。理解这条曲线对于任何参与船舶设计的人来说都是至关重要的，因为它直接影响着在当今竞争激烈的市场中海洋船只的整体性能和可行性。