ship hydrodynamics

简明释义

船舶水动力学

英英释义

例句

1.Understanding ship hydrodynamics 船舶水动力学 helps in the development of more stable vessels.

理解船舶水动力学有助于开发更稳定的船只。

2.Advanced simulations in ship hydrodynamics 船舶水动力学 can predict how a ship behaves in rough seas.

在船舶水动力学中的先进模拟可以预测船只在恶劣海况下的表现。

3.Engineers use ship hydrodynamics 船舶水动力学 to calculate resistance and optimize fuel efficiency.

工程师利用船舶水动力学来计算阻力并优化燃油效率。

4.The study of ship hydrodynamics 船舶水动力学 is essential for improving vessel design.

对船舶水动力学的研究对于改善船舶设计至关重要。

5.The principles of ship hydrodynamics 船舶水动力学 are applied in naval architecture and marine engineering.

在海军建筑和海洋工程中应用船舶水动力学的原理。

作文

The study of ship hydrodynamics is essential for understanding how ships interact with water. This field of study focuses on the behavior of fluids in motion, particularly as they relate to the design and performance of marine vessels. By analyzing the forces acting on a ship as it moves through water, engineers can optimize hull shapes, improve fuel efficiency, and enhance overall performance. Ship hydrodynamics encompasses various principles of fluid mechanics, which are crucial in predicting how a vessel will perform under different conditions. For instance, the drag force experienced by a ship is a critical factor that influences its speed and fuel consumption. Reducing drag through better hull designs can lead to significant improvements in operational efficiency.Moreover, ship hydrodynamics plays a vital role in ensuring the safety and stability of vessels. Understanding how waves and currents affect a ship's movement helps in designing vessels that can withstand harsh marine environments. This knowledge is particularly important for naval architects and marine engineers, who must consider factors such as wave resistance and stability when creating new ship designs.In addition to performance and safety, ship hydrodynamics also contributes to environmental concerns. As the shipping industry faces increasing pressure to reduce its carbon footprint, understanding hydrodynamic principles becomes even more critical. Innovations in hull design that stem from hydrodynamic studies can lead to more eco-friendly vessels, thus minimizing their impact on marine ecosystems.The application of ship hydrodynamics is not limited to large commercial vessels. Smaller crafts, recreational boats, and even submarines benefit from the insights gained through this discipline. For example, optimizing the shape of a small boat's hull can lead to better maneuverability and speed, enhancing the overall experience for users.Furthermore, advancements in technology have allowed for more sophisticated simulations and modeling techniques in ship hydrodynamics. Computational fluid dynamics (CFD) enables engineers to visualize and analyze fluid flow around a ship before it is built. This predictive capability saves time and resources, allowing for more innovative designs that can be tested virtually before construction.In conclusion, the importance of ship hydrodynamics cannot be overstated. It is a multidisciplinary field that combines principles of physics, engineering, and environmental science. As the maritime industry continues to evolve, the insights gained from ship hydrodynamics will be crucial in developing vessels that are not only efficient and safe but also environmentally sustainable. The ongoing research and development in this area promise exciting advancements for the future of marine transportation, making it an essential topic for both current and aspiring professionals in the field.

对船舶水动力学的研究对于理解船舶如何与水相互作用至关重要。该领域的研究重点是流体运动的行为，特别是与海洋船舶的设计和性能相关的行为。通过分析船舶在水中移动时所受的力，工程师可以优化船体形状，提高燃油效率，并增强整体性能。船舶水动力学包含流体力学的各种原理，这些原理对于预测船舶在不同条件下的表现至关重要。例如，船舶所经历的阻力是影响其速度和燃料消耗的关键因素。通过更好的船体设计来减少阻力，可以显著提高操作效率。此外，船舶水动力学在确保船舶的安全性和稳定性方面也发挥着重要作用。了解波浪和水流如何影响船舶的运动，有助于设计能够承受恶劣海洋环境的船舶。这一知识对于海军建筑师和海洋工程师尤为重要，他们在创建新的船舶设计时必须考虑波浪阻力和稳定性等因素。除了性能和安全性外，船舶水动力学还对环境问题做出了贡献。随着航运业面临减少碳足迹的压力，理解水动力学原理变得更加重要。源于水动力学研究的船体设计创新可以导致更环保的船舶，从而最小化它们对海洋生态系统的影响。船舶水动力学的应用不仅限于大型商业船舶。较小的船只、休闲船和潜艇也受益于通过这一学科获得的见解。例如，优化小型船只船体的形状可以提高机动性和速度，从而增强用户的整体体验。此外，技术的进步使得在船舶水动力学中进行更复杂的仿真和建模技术成为可能。计算流体动力学（CFD）使工程师能够在船舶建造之前可视化和分析流体在船舶周围的流动。这种预测能力节省了时间和资源，使得可以在建设之前进行更多创新设计的虚拟测试。总之，船舶水动力学的重要性不容低估。它是一个多学科领域，结合了物理学、工程学和环境科学的原理。随着海事行业的不断发展，船舶水动力学所获得的见解对于开发不仅高效且安全而且环境可持续的船舶至关重要。在这一领域的持续研究和发展为海洋运输的未来带来了令人兴奋的进展，使其成为当前及未来专业人士的一个重要话题。