maximum waterplane

简明释义

最大水线面

英英释义

例句

1.The design of the vessel ensures that the maximum waterplane 最大水面面积 is achieved for stability.

该船只的设计确保实现了稳定性的最大水面面积。

2.To ensure safety, the maximum waterplane 最大水面面积 should be calculated during the design phase.

为了确保安全，在设计阶段应该计算最大水面面积。

3.In naval architecture, the maximum waterplane 最大水面面积 is critical for determining buoyancy.

在船舶设计中，最大水面面积对于确定浮力至关重要。

4.The maximum waterplane 最大水面面积 affects how the boat interacts with waves.

最大水面面积影响着船只与波浪的相互作用。

5.Engineers calculated the maximum waterplane 最大水面面积 to optimize the ship's performance in rough seas.

工程师计算了最大水面面积以优化船只在恶劣海况下的表现。

作文

The concept of the maximum waterplane is crucial in the field of naval architecture and marine engineering. It refers to the largest area of the water surface that a vessel's hull occupies at the waterline when it is floating. Understanding this concept is essential for designing ships, boats, and other marine vessels because it directly impacts stability, buoyancy, and overall performance in the water. When a ship is designed, engineers must consider various factors, including the shape of the hull, the materials used, and the intended use of the vessel. The maximum waterplane plays a significant role in determining how well a ship will perform under different conditions. For example, a larger waterplane area can provide greater stability, which is particularly important for larger vessels that may encounter rough seas.Moreover, the maximum waterplane is not just about size; it also involves the distribution of weight and the center of gravity. A well-designed hull with an optimal maximum waterplane ensures that the vessel can withstand forces from waves and wind without capsizing. This is why naval architects spend considerable time calculating the dimensions and shape of the hull to achieve the best possible waterplane area.In addition to stability, the maximum waterplane affects the speed and efficiency of a vessel. A larger waterplane can create more resistance, which might slow down the ship. Therefore, achieving a balance between a sufficient waterplane area for stability and a streamlined shape for speed is a key challenge in ship design. Engineers often use advanced modeling techniques and simulations to find this balance before constructing the actual vessel.Another important aspect to consider is the impact of the maximum waterplane on fuel efficiency. Ships with a larger waterplane area may require more power to move through the water, leading to increased fuel consumption. This is particularly relevant in today's world, where environmental concerns and fuel costs are paramount. Designers are therefore tasked with creating vessels that minimize their waterplane area while still providing the necessary stability and safety features.Furthermore, the maximum waterplane is also significant in terms of regulatory compliance. Many countries have specific regulations regarding the design and construction of vessels, which include guidelines on the waterplane area. These regulations are in place to ensure that ships are safe to operate and do not pose a risk to the environment or other vessels.In conclusion, the maximum waterplane is a fundamental concept in marine engineering that influences a vessel's stability, performance, and efficiency. By understanding and optimizing this aspect of design, engineers can create safer, faster, and more environmentally friendly ships. As technology continues to advance, the ability to accurately model and predict the effects of the maximum waterplane will only improve, leading to even better designs in the future. The significance of the maximum waterplane cannot be underestimated, as it plays a vital role in the evolution of marine transportation and the safety of our oceans.

‘最大水面’这一概念在海洋建筑和海洋工程领域至关重要。它指的是船体在水面上浮动时，船体占据的水面最大面积。理解这个概念对于设计船舶、船只和其他海洋器械是必不可少的，因为它直接影响到稳定性、浮力和整体水中表现。在设计船只时，工程师必须考虑各种因素，包括船体的形状、所用材料和船只的预期用途。‘最大水面’在决定船只在不同条件下的表现方面起着重要作用。例如，较大的水面面积可以提供更大的稳定性，这对于可能遇到恶劣海况的大型船舶尤为重要。此外，‘最大水面’不仅仅关乎大小；它还涉及重量的分布和重心的位置。设计良好的船体与最佳的‘最大水面’确保船舶能够抵御来自波浪和风的力量，而不会倾覆。这就是为什么海洋建筑师花费大量时间计算船体的尺寸和形状，以实现最佳的水面面积。除了稳定性，‘最大水面’还影响船只的速度和效率。较大的水面可能会产生更多的阻力，从而减慢船速。因此，在稳定性所需的水面面积和速度所需的流线型形状之间取得平衡，是船舶设计中的一大挑战。工程师们通常使用先进的建模技术和模拟来寻找这种平衡，然后再建造实际的船舶。另一个需要考虑的重要方面是‘最大水面’对燃油效率的影响。具有较大水面面积的船只可能需要更多的动力来穿越水面，导致燃油消耗增加。在当今世界，环境问题和燃料成本至关重要，因此设计师的任务是创造出在保证必要的稳定性和安全特性同时，尽量减少水面面积的船舶。此外，‘最大水面’在合规性方面也很重要。许多国家对船舶的设计和建造有特定的法规，其中包括关于水面面积的指导方针。这些法规旨在确保船舶安全操作，并不对环境或其他船舶构成风险。总之，‘最大水面’是海洋工程中的一个基本概念，影响着船舶的稳定性、性能和效率。通过理解和优化这一设计方面，工程师可以创造出更安全、更快速、环保的船舶。随着技术的不断进步，准确建模和预测‘最大水面’影响的能力将不断提高，从而在未来带来更好的设计。‘最大水面’的重要性不容小觑，因为它在海洋运输的发展和我们海洋的安全中扮演着至关重要的角色。