underwater engineering

简明释义

水下工程

英英释义

例句

1.Innovations in underwater engineering have led to safer and more efficient methods of underwater exploration.

在水下工程中的创新使得水下探测的方法更加安全和高效。

2.The field of underwater engineering involves designing structures that can withstand pressure and corrosion in ocean environments.

水下工程领域涉及设计能够承受海洋环境中压力和腐蚀的结构。

3.Environmental considerations are crucial in underwater engineering projects to minimize ecological impact.

在水下工程项目中，环境考虑至关重要，以最小化生态影响。

4.Many universities offer specialized degrees in underwater engineering to prepare students for careers in marine construction.

许多大学提供水下工程专业学位，以帮助学生为海洋建设职业做准备。

5.The oil industry relies heavily on underwater engineering for the construction of offshore drilling platforms.

石油行业在离岸钻井平台的建设中严重依赖水下工程。

作文

Underwater engineering, or 水下工程, is a specialized field that focuses on the design, construction, and maintenance of structures and systems located beneath the surface of water bodies. This discipline encompasses a wide range of activities, including the installation of underwater pipelines, the construction of offshore platforms, and the maintenance of submerged structures such as bridges and dams. The importance of 水下工程 cannot be overstated, as it plays a critical role in various industries, including oil and gas, renewable energy, and marine transportation.One of the primary challenges in 水下工程 is the unique environment in which these projects are carried out. The underwater realm presents obstacles such as high pressure, low temperatures, and limited visibility, which can complicate both the planning and execution of engineering tasks. Engineers must develop innovative solutions to address these challenges, often relying on advanced technology and equipment. For instance, remotely operated vehicles (ROVs) and autonomous underwater vehicles (AUVs) are frequently employed to perform inspections and repairs at depths that would be dangerous for human divers.In addition to technological advancements, 水下工程 also requires a deep understanding of marine ecosystems. Engineers must consider the potential environmental impact of their projects, ensuring that they do not disrupt local wildlife or habitats. This aspect of the discipline has become increasingly important as awareness of environmental issues grows. Many engineering firms now incorporate environmental assessments into their project planning processes, striving to balance development needs with ecological preservation.The applications of 水下工程 are vast and varied. In the oil and gas industry, for example, engineers design and install subsea pipelines that transport oil and natural gas from offshore drilling sites to processing facilities on land. These pipelines must be constructed to withstand harsh underwater conditions while minimizing the risk of leaks or ruptures. Similarly, in the field of renewable energy, 水下工程 is essential for the installation of underwater turbines and other infrastructure that harnesses tidal and wave energy.Another significant area where 水下工程 plays a crucial role is in the maintenance and repair of existing underwater structures. Over time, structures such as bridges, dams, and piers can suffer from corrosion and damage due to exposure to water and marine organisms. Engineers in this field utilize specialized techniques to assess the condition of these structures and carry out necessary repairs, ensuring their longevity and safety.As the demand for sustainable energy sources and efficient transportation continues to grow, the field of 水下工程 is poised for expansion. Innovations in materials science, robotics, and environmental monitoring will likely drive future developments within this discipline. Moreover, as climate change impacts marine environments, engineers will need to adapt their practices to address new challenges, such as rising sea levels and increased storm intensity.In conclusion, 水下工程 is a vital field that combines engineering expertise with environmental stewardship. As we continue to explore and utilize the resources beneath our oceans and rivers, the role of underwater engineers will be increasingly important in ensuring that these activities are conducted safely and sustainably. The future of 水下工程 holds great promise, with opportunities for innovation and growth that will contribute to our understanding of the underwater world and our ability to harness its resources responsibly.

水下工程（underwater engineering）是一个专门的领域，专注于设计、建造和维护位于水体表面以下的结构和系统。该学科涵盖了广泛的活动，包括安装水下管道、建造海上平台以及维护桥梁和大坝等水下结构。水下工程的重要性不容小觑，因为它在石油和天然气、可再生能源和海洋运输等多个行业中发挥着关键作用。水下工程面临的主要挑战之一是这些项目所进行的独特环境。水下领域存在高压、低温和能见度有限等障碍，这可能会使工程任务的规划和执行复杂化。工程师必须开发创新的解决方案来应对这些挑战，通常依赖于先进的技术和设备。例如，远程操作车辆（ROVs）和自主水下车辆（AUVs）常被用于在危险的人类潜水员无法到达的深度进行检查和维修。除了技术进步，水下工程还需要对海洋生态系统有深入的理解。工程师必须考虑其项目的潜在环境影响，确保不会干扰当地野生动物或栖息地。随着对环境问题认识的增强，该学科的这一方面变得越来越重要。许多工程公司现在在项目规划过程中纳入环境评估，努力在发展需求与生态保护之间取得平衡。水下工程的应用范围广泛而多样。在石油和天然气行业，例如，工程师设计并安装从海上钻井场到陆上处理设施的水下管道。这些管道必须建造得能够承受恶劣的水下条件，同时最大限度地减少泄漏或破裂的风险。同样，在可再生能源领域，水下工程对于安装水下涡轮机和其他基础设施，以利用潮汐和波浪能至关重要。水下工程的另一个重要领域是维护和修复现有的水下结构。随着时间的推移，桥梁、大坝和码头等结构可能因暴露于水和海洋生物而遭受腐蚀和损坏。该领域的工程师利用专业技术评估这些结构的状况，并进行必要的维修，以确保其耐久性和安全性。随着对可持续能源来源和高效运输的需求不断增长，水下工程领域也将迎来扩展。材料科学、机器人技术和环境监测的创新将可能推动该学科的未来发展。此外，随着气候变化对海洋环境的影响，工程师将需要调整他们的实践，以应对新挑战，例如海平面上升和风暴强度增加。总之，水下工程是一个结合了工程专业知识和环境管理的重要领域。随着我们继续探索和利用海洋和河流下的资源，水下工程师的角色在确保这些活动安全和可持续方面将变得越来越重要。水下工程的未来充满希望，创新和增长的机会将有助于我们理解水下世界及其资源的负责任利用。