geometrical freeboard

简明释义

型干舷

英英释义

例句

1.The geometrical freeboard measurement is essential for determining the stability of floating structures.

几何自由板的测量对于确定浮动结构的稳定性至关重要。

2.The engineer calculated the geometrical freeboard to ensure the vessel's safety during heavy seas.

工程师计算了几何自由板以确保船只在大浪中的安全。

3.To avoid capsizing, the yacht must maintain an adequate geometrical freeboard during rough weather.

为了避免倾覆，游艇在恶劣天气中必须保持足够的几何自由板。

4.In designing the dam, the geometrical freeboard was a critical factor to prevent overflow.

在设计大坝时，几何自由板是防止溢出的关键因素。

5.The architect included a sufficient geometrical freeboard in the design of the flood control system.

建筑师在防洪系统的设计中包含了足够的几何自由板。

作文

In the field of naval architecture and marine engineering, the term geometrical freeboard refers to the vertical distance between the waterline and the upper edge of a ship's deck. This measurement is crucial for ensuring the safety and stability of vessels as they navigate through various water conditions. The concept of geometrical freeboard is not only important for the design of ships but also plays a significant role in regulatory compliance and operational efficiency.Understanding geometrical freeboard begins with recognizing its significance in preventing water from entering the vessel. A higher freeboard generally indicates that a ship is less likely to take on water, especially in rough seas. This is particularly vital for cargo ships that carry heavy loads, as excessive water intake can lead to instability and potential capsizing. Therefore, naval architects must carefully calculate the geometrical freeboard during the design phase to ensure that the ship can withstand the forces it will encounter at sea.The calculations involved in determining geometrical freeboard are based on several factors, including the shape and size of the hull, the weight distribution of the cargo, and the intended operating conditions. These calculations are governed by international regulations, such as those set forth by the International Maritime Organization (IMO). Compliance with these regulations ensures that ships are built to withstand specific environmental challenges, thereby enhancing maritime safety.Moreover, the geometrical freeboard has implications beyond just safety. It can also affect the vessel's performance and fuel efficiency. Ships with adequate freeboard tend to experience less drag, allowing them to travel more efficiently through water. This efficiency translates into lower fuel consumption and reduced operational costs, which are critical factors for shipping companies looking to maximize profit margins.In addition to its technical aspects, the concept of geometrical freeboard also carries environmental considerations. As the shipping industry faces increasing scrutiny over its environmental impact, understanding how freeboard affects emissions and fuel use becomes essential. By optimizing the geometrical freeboard, shipbuilders can contribute to more sustainable practices within the industry, aligning with global efforts to reduce carbon footprints and protect marine ecosystems.Furthermore, advancements in technology have introduced new materials and design techniques that allow for innovative approaches to geometrical freeboard. Modern simulations and modeling tools enable engineers to test various designs under different conditions, leading to smarter and safer ship designs. These technological innovations not only improve the accuracy of freeboard calculations but also enhance the overall performance and safety of vessels.In conclusion, the term geometrical freeboard encompasses a critical aspect of ship design and operation. Its importance in ensuring safety, enhancing performance, and promoting environmental sustainability cannot be overstated. As the maritime industry continues to evolve, a deeper understanding of geometrical freeboard will remain essential for engineers, regulators, and ship operators alike. By prioritizing this measurement, the industry can work towards safer seas and more efficient shipping practices, ultimately benefiting all stakeholders involved in maritime activities.

在船舶设计和海洋工程领域，术语几何自由高度指的是水线与船只甲板上缘之间的垂直距离。这个测量对于确保船只在各种水域条件下航行的安全性和稳定性至关重要。几何自由高度的概念不仅对船舶的设计重要，而且在合规性和操作效率方面也起着重要作用。理解几何自由高度首先要认识到它在防止水进入船只方面的重要性。较高的自由高度通常意味着船只不太可能在恶劣海况下进水。这对于运输重载的货船尤其重要，因为过多的进水可能导致不稳定和潜在的翻船。因此，船舶建筑师必须在设计阶段仔细计算几何自由高度，以确保船只能够承受其将在海上遇到的力量。确定几何自由高度的计算涉及多个因素，包括船体的形状和大小、货物的重量分布以及预期的操作条件。这些计算受到国际法规的约束，例如国际海事组织（IMO）制定的规定。遵守这些规定确保船舶的建造能够承受特定的环境挑战，从而增强海事安全。此外，几何自由高度还会影响船舶的性能和燃油效率。具有足够自由高度的船只往往会经历更少的阻力，使其能够更高效地穿越水面。这种效率转化为更低的燃料消耗和减少的运营成本，对于希望最大化利润的航运公司来说，这些都是关键因素。除了技术方面，几何自由高度的概念还涉及环境考量。随着航运业面临越来越多的环境影响审查，理解自由高度如何影响排放和燃料使用变得至关重要。通过优化几何自由高度，造船商可以为行业内更可持续的做法做出贡献，与全球减少碳足迹和保护海洋生态系统的努力保持一致。此外，技术的进步引入了新材料和设计技术，使得对几何自由高度的创新方法成为可能。现代模拟和建模工具使工程师能够在不同条件下测试各种设计，从而实现更智能、更安全的船舶设计。这些技术创新不仅提高了自由高度计算的准确性，还增强了船舶的整体性能和安全性。总之，术语几何自由高度涵盖了船舶设计和操作的一个关键方面。它在确保安全、提高性能和促进环境可持续性方面的重要性不容小觑。随着海事行业的不断发展，对几何自由高度的深入理解将继续对工程师、监管者和船舶运营商至关重要。通过优先考虑这一测量，行业能够朝着更安全的海域和更高效的航运实践迈进，最终使所有参与海事活动的利益相关者受益。