equivalent thin ship

简明释义

等效薄船

英英释义

例句

1.The design team proposed an equivalent thin ship to enhance the vessel's speed and fuel efficiency.

设计团队提出了一种等效薄船，以提高船只的速度和燃油效率。

2.In our simulations, the equivalent thin ship performed better under various weather conditions.

在我们的模拟中，等效薄船在各种天气条件下表现更好。

3.Engineers are studying the hydrodynamics of the equivalent thin ship to reduce drag.

工程师们正在研究等效薄船的水动力学，以减少阻力。

4.The equivalent thin ship design allows for easier navigation in shallow waters.

这种等效薄船设计使得在浅水区航行更加容易。

5.By using an equivalent thin ship, we can achieve greater payload capacity.

通过使用等效薄船，我们可以实现更大的载货能力。

作文

In the world of maritime engineering, the concept of an equivalent thin ship plays a crucial role in the design and construction of vessels that are both efficient and effective. An equivalent thin ship refers to a theoretical model of a ship that has been optimized for minimal resistance in water while maintaining structural integrity. This concept is particularly important when considering the hydrodynamic properties of ships, as it allows engineers to predict how a vessel will behave in various sea conditions.When designing a new ship, engineers often start with a basic hull shape that resembles an equivalent thin ship. This shape is characterized by its slender profile and streamlined features, which help reduce drag and improve fuel efficiency. The idea is that by minimizing the surface area in contact with the water, the ship can move more swiftly and consume less energy. This is particularly beneficial in today’s world, where sustainability and environmental concerns are at the forefront of maritime operations.Moreover, the use of an equivalent thin ship model allows for advanced simulations and calculations that can predict performance outcomes before the actual construction begins. By employing computational fluid dynamics (CFD), engineers can analyze the flow of water around the hull and make necessary adjustments to enhance performance. This not only saves time and resources during the design phase but also leads to safer and more reliable vessels.The implications of the equivalent thin ship concept extend beyond just performance; they also touch on economic factors. Ships that are designed with efficiency in mind tend to have lower operational costs due to reduced fuel consumption. This is particularly important for shipping companies that operate on thin margins and need to maximize profitability. By investing in the design of an equivalent thin ship, companies can see significant long-term savings, making it a worthwhile endeavor.Additionally, the equivalent thin ship concept is not limited to large cargo vessels or tankers. It can also be applied to recreational boats, fishing vessels, and even naval ships. Each type of vessel benefits from the principles of hydrodynamics that an equivalent thin ship embodies. For instance, a fishing boat designed with these principles in mind may be able to reach fishing grounds faster and return sooner, thus increasing overall catch and revenue.In conclusion, the equivalent thin ship is a vital concept in maritime engineering that underscores the importance of design efficiency and performance optimization. As we continue to face challenges related to energy consumption and environmental impact, the principles behind the equivalent thin ship will remain relevant. By focusing on creating vessels that embody these characteristics, the maritime industry can contribute to a more sustainable future while still meeting the demands of global trade and transportation. The journey toward better ship design is ongoing, and the equivalent thin ship will undoubtedly play a key role in shaping that future.

在海洋工程的世界中，‘equivalent thin ship’这一概念在船舶设计和建造中发挥着至关重要的作用。‘equivalent thin ship’指的是一种经过优化的理论船只模型，其在保持结构完整性的同时，旨在减少水中的阻力。这个概念在考虑船舶的水动力特性时尤为重要，因为它使工程师能够预测船只在各种海洋条件下的表现。在设计新船时，工程师通常会从一个基本的船体形状开始，该形状类似于‘equivalent thin ship’。这种形状的特点是其细长的轮廓和流线型的特征，这有助于减少阻力并提高燃油效率。其理念是通过最小化与水接触的表面积，使船只能够更快速地移动并消耗更少的能量。这在当今世界尤其重要，因为可持续性和环境问题已成为海洋作业的核心。此外，使用‘equivalent thin ship’模型使得高级模拟和计算成为可能，可以在实际建造之前预测性能结果。通过采用计算流体动力学（CFD），工程师可以分析水流绕过船体的情况，并进行必要的调整以增强性能。这不仅节省了设计阶段的时间和资源，还导致了更安全、更可靠的船只。‘equivalent thin ship’概念的影响不仅限于性能；还涉及经济因素。设计时考虑效率的船只由于减少了燃料消耗，往往运营成本较低。这对于在微薄利润上运营的航运公司尤为重要，它们需要最大化盈利能力。通过投资于‘equivalent thin ship’的设计，公司可以看到显著的长期节省，使其成为值得追求的目标。此外，‘equivalent thin ship’的概念并不局限于大型货船或油轮。它也可以应用于休闲船只、渔船甚至军舰。每种类型的船只都能从‘equivalent thin ship’所体现的水动力学原理中受益。例如，采用这些原理设计的渔船可能能够更快到达捕捞区并更早返回，从而增加整体捕获量和收入。总之，‘equivalent thin ship’是海洋工程中一个至关重要的概念，它强调了设计效率和性能优化的重要性。随着我们继续面临能源消耗和环境影响相关的挑战，‘equivalent thin ship’背后的原则将始终保持相关性。通过专注于创建体现这些特征的船只，海洋行业可以为一个更加可持续的未来做出贡献，同时满足全球贸易和运输的需求。朝着更好船舶设计的旅程仍在继续，而‘equivalent thin ship’无疑将在塑造这一未来中发挥关键作用。