length of designed waterplane

简明释义

设计水线长

英英释义

例句

1.During the design phase, we must finalize the length of designed waterplane for optimal buoyancy.

在设计阶段，我们必须最终确定设计水面长度以获得最佳浮力。

2.Adjusting the length of designed waterplane can significantly affect the vessel's performance.

调整设计水面长度可以显著影响船只的性能。

3.Our team reviewed the specifications, focusing on the length of designed waterplane to meet regulatory standards.

我们的团队审查了规格，重点关注设计水面长度以符合监管标准。

4.The length of designed waterplane is crucial for calculating the lift generated by the hull.

对于计算船体产生的升力，设计水面长度至关重要。

5.The engineer calculated the length of designed waterplane to ensure stability during testing.

工程师计算了设计水面长度以确保测试期间的稳定性。

作文

The design and construction of boats and ships require meticulous attention to various factors, one of which is the length of designed waterplane. This term refers to the horizontal distance measured at the waterline when the vessel is floating. Understanding the length of designed waterplane is crucial for naval architects and marine engineers as it significantly influences the performance and stability of a watercraft.When a vessel is designed, the length of designed waterplane affects its hydrodynamic properties. A longer waterplane length usually results in better stability and reduced resistance while moving through water. This is particularly important for larger vessels that need to maintain balance and maneuverability in various sea conditions. For instance, cargo ships, which often have a considerable length of designed waterplane, are engineered to ensure that they can carry heavy loads without compromising their safety or efficiency.Moreover, the length of designed waterplane also plays a critical role in determining the vessel's speed. According to the principles of naval architecture, a longer waterplane allows for higher speeds due to decreased wave-making resistance. This means that vessels with an optimized length of designed waterplane can travel faster and more efficiently, making them more desirable in commercial shipping and recreational boating.In addition to performance, the length of designed waterplane is essential for assessing a vessel's capacity. The overall area of the waterplane directly correlates with the load that a ship can safely carry. A larger waterplane area, influenced by the length of designed waterplane, typically indicates a higher buoyancy, allowing the vessel to support more weight without sinking. This is a vital consideration for passenger ferries and cruise ships, where safety and comfort are paramount.Environmental factors also come into play when considering the length of designed waterplane. As vessels operate in different water conditions, the design must accommodate changes in wave height and current. A well-designed waterplane can help minimize the impact of these environmental elements, ensuring that the vessel remains stable and safe during its journey. For example, yachts designed for ocean sailing often feature a carefully calculated length of designed waterplane to handle rough seas effectively.In conclusion, the length of designed waterplane is a fundamental aspect of marine design that influences stability, speed, capacity, and environmental adaptability. Naval architects must carefully consider this measurement during the design process to create vessels that are not only functional but also safe and efficient. Understanding the implications of the length of designed waterplane helps enhance the overall performance of marine vessels, making it a critical focus in the field of naval engineering.

船只和舰艇的设计与建造需要对各种因素进行细致的关注，其中之一就是设计水面长度。这个术语指的是在船舶漂浮时，水线处的水平距离。理解设计水面长度对海军建筑师和海洋工程师至关重要，因为它显著影响了水上交通工具的性能和稳定性。当一艘船只被设计时，设计水面长度会影响其流体动力特性。更长的水面长度通常会导致更好的稳定性和更低的水中阻力。这对于需要在各种海况下保持平衡和机动性的较大船舶尤为重要。例如，货船通常具有相当的设计水面长度，它们的设计旨在确保能够承载重载而不妨碍安全性或效率。此外，设计水面长度在确定船舶速度方面也发挥着关键作用。根据海军建筑的原理，更长的水面允许更高的速度，因为减少了波浪造成的阻力。这意味着优化过的设计水面长度的船舶可以更快、更有效地航行，使它们在商业航运和休闲航行中更具吸引力。除了性能外，设计水面长度对于评估船舶的载量也至关重要。水面的整体面积直接与船舶能够安全承载的重量相关。更大的水面面积受到设计水面长度的影响，通常表示更高的浮力，使船舶能够支持更多的重量而不会下沉。这是客轮和游轮的重要考虑因素，因为安全性和舒适性至关重要。环境因素在考虑设计水面长度时也发挥作用。当船舶在不同的水域条件下运行时，设计必须适应波浪高度和水流的变化。良好的水面设计可以帮助最小化这些环境因素的影响，确保船舶在旅途中保持稳定和安全。例如，专为海洋航行设计的游艇通常具有经过精心计算的设计水面长度，以有效应对恶劣海况。总之，设计水面长度是海洋设计的一个基本方面，影响着稳定性、速度、载量和环境适应能力。海军建筑师在设计过程中必须仔细考虑这一测量，以创造不仅功能齐全，而且安全高效的船舶。理解设计水面长度的影响有助于提高海洋船舶的整体性能，使其成为海军工程领域的重要关注点。