practical naval architecture

简明释义

实用造船学

英英释义

例句

1.The textbook provides a comprehensive overview of practical naval architecture techniques.

这本教科书提供了实用海洋建筑技术的全面概述。

2.The course on practical naval architecture covers the essential concepts needed for designing ships.

关于实用海洋建筑的课程涵盖了设计船舶所需的基本概念。

3.Understanding practical naval architecture is crucial for anyone looking to work in shipbuilding.

理解实用海洋建筑对任何希望在造船行业工作的人来说都是至关重要的。

4.Students will learn how to calculate stability using practical naval architecture methods.

学生将学习如何使用实用海洋建筑方法计算船舶的稳定性。

5.In our workshop, we will apply practical naval architecture principles to build small boats.

在我们的研讨会上，我们将应用实用海洋建筑原理来建造小型船只。

作文

The field of practical naval architecture is an essential discipline that combines engineering principles with the art of ship design and construction. It encompasses a wide range of activities, from the initial concept and design phases to the actual building and maintenance of vessels. Understanding practical naval architecture is crucial for anyone involved in maritime industries, as it lays the foundation for creating safe, efficient, and functional ships.One of the primary aspects of practical naval architecture is the application of physics and mathematics to solve real-world problems related to marine vessels. Naval architects must consider various factors such as buoyancy, stability, and hydrodynamics when designing a ship. For instance, ensuring that a vessel remains stable in rough seas requires a deep understanding of how weight distribution and hull shape affect its performance. This technical knowledge is not only vital for the safety of the ship but also for optimizing its speed and fuel efficiency.In addition to technical skills, practical naval architecture also involves creativity and innovation. Designers must think outside the box to create vessels that meet specific needs while adhering to regulatory standards. For example, the increasing demand for environmentally friendly ships has led to innovative designs that incorporate alternative energy sources and sustainable materials. This shift towards greener technologies is a testament to how practical naval architecture evolves in response to global challenges.Moreover, practical naval architecture extends beyond the design and construction phases. It also includes the maintenance and repair of ships, which are critical for ensuring their longevity and operational efficiency. Naval architects often work closely with engineers and shipbuilders to develop maintenance schedules and procedures that keep vessels in optimal condition. This aspect of the discipline emphasizes the importance of ongoing education and adaptation to new technologies and methods in the maritime industry.Furthermore, practical naval architecture plays a significant role in the economic aspects of the maritime industry. Efficient ship design can lead to reduced operational costs and increased profitability for shipping companies. By optimizing vessel performance, naval architects help businesses minimize fuel consumption and maximize cargo capacity, which are crucial factors in a highly competitive market.In conclusion, practical naval architecture is a multifaceted discipline that combines science, art, and economics to create vessels that are safe, efficient, and environmentally friendly. Its importance cannot be overstated, as it directly impacts the safety of maritime operations and the sustainability of the industry. As we continue to face challenges such as climate change and resource scarcity, the role of practical naval architecture will only become more critical in shaping the future of maritime transport. Therefore, investing in education and research in this field is essential for fostering innovation and ensuring the continued advancement of naval architecture practices.

“实用海洋建筑”是一个重要的学科，它结合了工程原理与船舶设计和建造的艺术。它涵盖了从最初的概念和设计阶段到实际建造和维护船舶的一系列活动。理解“实用海洋建筑”对于任何参与海事行业的人来说都是至关重要的，因为它为创建安全、高效和功能性船舶奠定了基础。“实用海洋建筑”的一个主要方面是将物理学和数学应用于解决与海洋船舶相关的现实问题。海洋建筑师在设计船舶时必须考虑各种因素，如浮力、稳定性和水动力学。例如，确保船舶在恶劣海况中保持稳定需要深刻理解重量分布和船体形状如何影响其性能。这种技术知识不仅对船舶的安全至关重要，而且对优化速度和燃油效率也至关重要。除了技术技能外，“实用海洋建筑”还涉及创造力和创新。设计师必须跳出框架，创造满足特定需求的船舶，同时遵守监管标准。例如，对环保船舶日益增长的需求导致了结合替代能源和可持续材料的创新设计。这种向更环保技术的转变证明了“实用海洋建筑”如何在应对全球挑战时不断发展。此外，“实用海洋建筑”还超越了设计和建造阶段。它还包括船舶的维护和修理，这对确保船舶的使用寿命和操作效率至关重要。海洋建筑师通常与工程师和造船商密切合作，制定维护计划和程序，以保持船舶的最佳状态。这一学科的这一方面强调了在海事行业中持续教育和适应新技术和方法的重要性。此外，“实用海洋建筑”在海事行业的经济方面也发挥着重要作用。高效的船舶设计可以降低运营成本并提高航运公司的盈利能力。通过优化船舶性能，海洋建筑师帮助企业减少燃料消耗并最大化货物容量，这在竞争激烈的市场中是至关重要的。总之，“实用海洋建筑”是一个多方面的学科，它结合了科学、艺术和经济学，创造出安全、高效和环保的船舶。它的重要性不容小觑，因为它直接影响着海事操作的安全性和行业的可持续性。随着我们继续面临气候变化和资源匮乏等挑战，“实用海洋建筑”的角色将在塑造海洋运输的未来中变得更加重要。因此，在这一领域投资教育和研究对于促进创新和确保海洋建筑实践的持续进步至关重要。