draft coefficient

简明释义

吃水系数

英英释义

例句

1.In our simulation, we adjusted the draft coefficient to see how it affects speed.

在我们的模拟中，我们调整了吃水系数以观察其对速度的影响。

2.The draft coefficient is crucial for calculating the load capacity of a cargo ship.

对于计算货船的载重能力，吃水系数至关重要。

3.During the design phase, we must consider the draft coefficient for optimal hydrodynamics.

在设计阶段，我们必须考虑吃水系数以实现最佳的水动力学。

4.A higher draft coefficient indicates a deeper hull, which can affect the ship's performance.

更高的吃水系数表示船体更深，这可能会影响船只的性能。

5.The engineer calculated the draft coefficient to determine the vessel's stability in water.

工程师计算了吃水系数以确定船只在水中的稳定性。

作文

The concept of the draft coefficient is essential in various fields, particularly in naval architecture and marine engineering. It refers to the ratio of the submerged volume of a vessel to the total volume of the vessel above the waterline. Understanding the draft coefficient is crucial for designing ships and boats that are both efficient and safe. When engineers design a new vessel, they must consider how the draft coefficient will affect its stability, buoyancy, and overall performance in water.In practical terms, the draft coefficient helps determine how much weight a ship can carry without compromising its safety. A higher draft coefficient indicates that a vessel can support more weight while remaining stable in the water. This is particularly important for cargo ships, which need to maximize their load capacity to be economically viable. Conversely, a lower draft coefficient may indicate that a vessel is more prone to capsizing or instability when loaded.Moreover, the draft coefficient plays a significant role in the environmental impact of marine vessels. Ships with an optimal draft coefficient can navigate through waters with less resistance, leading to lower fuel consumption and reduced emissions. This aspect is increasingly vital as the world moves towards more sustainable practices in shipping and transportation. Engineers and designers are now tasked with creating vessels that not only meet commercial needs but also adhere to environmental regulations.To accurately calculate the draft coefficient, engineers must take into account various factors, including the shape of the hull, the materials used in construction, and the intended use of the vessel. For instance, a fishing boat may have a different draft coefficient compared to a luxury yacht, as their designs cater to different operational requirements. Furthermore, the draft coefficient can change based on the vessel's load, water conditions, and even the weather.In conclusion, the draft coefficient is a fundamental parameter in the design and operation of marine vessels. It influences stability, load capacity, and environmental efficiency. As the maritime industry continues to evolve, understanding and optimizing the draft coefficient will remain a priority for engineers and designers alike. By focusing on this critical aspect, we can ensure that our vessels are not only effective in their operations but also responsible stewards of the marine environment.

“吃水系数”这一概念在多个领域中至关重要，特别是在船舶设计和海洋工程中。它是指船舶的浸没体积与水线以上总容积的比率。理解“吃水系数”对于设计既高效又安全的船只至关重要。当工程师设计新船时，他们必须考虑“吃水系数”会如何影响船只在水中的稳定性、浮力和整体性能。在实际操作中，“吃水系数”有助于确定一艘船可以在不危及安全的情况下承载多少重量。较高的“吃水系数”表明船只在保持水中稳定的情况下可以承载更多的重量。这对于货船尤其重要，因为它们需要最大化负载能力以实现经济可行性。相反，较低的“吃水系数”可能表明船只在负载时更容易倾覆或不稳定。此外，“吃水系数”在海洋船舶的环境影响中也发挥着重要作用。具有最佳“吃水系数”的船只在航行时阻力较小，从而减少燃料消耗和排放。随着世界日益向可持续运输和航运实践转变，这一点显得尤为重要。工程师和设计师现在面临的任务是创建不仅满足商业需求，还符合环境法规的船只。为了准确计算“吃水系数”，工程师必须考虑各种因素，包括船体的形状、所用材料以及船只的预期用途。例如，一艘渔船的“吃水系数”可能与一艘豪华游艇的“吃水系数”不同，因为它们的设计满足不同的操作要求。此外，“吃水系数”还可能因船只的负载、水况甚至天气而变化。总之，“吃水系数”是海洋船舶设计和操作中的基本参数。它影响着稳定性、负载能力和环境效率。随着海事行业的不断发展，理解和优化“吃水系数”将始终是工程师和设计师的优先事项。通过关注这一关键方面，我们可以确保我们的船只不仅在操作上有效，而且在海洋环境中也是负责任的管理者。