subaqueous construction

简明释义

水下施工

英英释义

例句

1.The engineers proposed a new design for the subaqueous construction 水下建筑 of the bridge to improve its stability.

工程师们提出了一种新的设计方案，用于提高桥梁的稳定性的水下建筑。

2.Environmental studies are essential before starting any subaqueous construction 水下建筑 project.

在开始任何水下建筑项目之前，环境研究是必不可少的。

3.The team specialized in subaqueous construction 水下建筑 to create artificial reefs for marine life.

该团队专注于水下建筑，以为海洋生物创造人工珊瑚礁。

4.The subaqueous construction 水下建筑 of the underwater tunnel was completed ahead of schedule.

水下隧道的水下建筑提前完成。

5.During the project, they encountered challenges related to subaqueous construction 水下建筑 techniques in the riverbed.

在项目中，他们遇到了与河床上的水下建筑技术相关的挑战。

作文

The term subaqueous construction refers to the engineering and architectural practices involved in building structures underwater. This specialized field has gained significant importance due to the increasing need for infrastructure that can withstand aquatic environments, such as bridges, tunnels, and various marine facilities. Understanding subaqueous construction is essential for engineers and architects who are tasked with designing safe and durable structures in challenging underwater conditions.One of the primary challenges of subaqueous construction is dealing with the unique environmental factors present underwater. High pressure, low temperatures, and the constant presence of water can affect the materials used and the methods of construction. Engineers must select appropriate materials that can resist corrosion and degradation caused by saltwater or freshwater environments. For example, concrete mixtures may be specially formulated to enhance their durability against water erosion.Additionally, the construction process itself poses significant logistical challenges. Unlike traditional construction on land, subaqueous construction often requires specialized equipment and techniques. Divers and remotely operated vehicles (ROVs) are frequently employed to carry out tasks that would be difficult or impossible for human workers alone. The use of advanced technology, such as underwater welding and cutting tools, has revolutionized the way these projects are executed.Safety is another paramount concern in subaqueous construction. The risks associated with working underwater are considerable, and comprehensive safety protocols must be established to protect workers. This includes ensuring that divers are properly trained and equipped with the necessary gear to handle emergencies. Moreover, continuous monitoring of the underwater environment is crucial to avoid accidents related to changing tides or unexpected underwater currents.Despite these challenges, the benefits of subaqueous construction are undeniable. It allows for the development of critical infrastructure that supports transportation, energy production, and environmental conservation. Underwater tunnels can provide efficient routes for vehicles, while offshore wind farms contribute to renewable energy efforts. Furthermore, subaqueous construction plays a vital role in habitat restoration projects, where structures are built to promote marine life and biodiversity.In conclusion, subaqueous construction is a complex and fascinating field that combines engineering, architecture, and environmental science. As our society continues to expand and seek new ways to utilize aquatic resources, the demand for skilled professionals in this area will only increase. By embracing innovative technologies and adhering to strict safety standards, we can ensure that subaqueous construction not only meets our infrastructure needs but also protects and preserves our precious underwater ecosystems.

“水下施工”一词指的是在水下建造结构的工程和建筑实践。由于对能够承受水环境的基础设施的需求日益增加，例如桥梁、隧道和各种海洋设施，这个专业领域变得越来越重要。理解“水下施工”对工程师和建筑师来说至关重要，他们负责设计在具有挑战性的水下条件下安全且耐用的结构。“水下施工”的主要挑战之一是应对水下存在的独特环境因素。高压、低温以及水的持续存在可能影响所使用的材料和施工方法。工程师必须选择适当的材料，以抵抗盐水或淡水环境造成的腐蚀和降解。例如，混凝土配方可能经过特别配制，以增强其抵御水侵蚀的耐久性。此外，施工过程本身也带来了重大后勤挑战。与传统的陆上施工不同，“水下施工”通常需要专业设备和技术。潜水员和遥控操作车辆（ROV）常常被用于执行人类工人难以或无法完成的任务。先进技术的使用，例如水下焊接和切割工具，彻底改变了这些项目的执行方式。安全是“水下施工”中的另一个重要问题。水下工作的风险相当大，必须建立全面的安全协议以保护工人。这包括确保潜水员接受适当的培训，并配备必要的设备以应对紧急情况。此外，持续监测水下环境对于避免因潮汐变化或意外水下水流而导致的事故至关重要。尽管面临这些挑战，“水下施工”的好处是不可否认的。它允许开发支持交通、能源生产和环境保护的关键基础设施。水下隧道可以为车辆提供高效的通道，而海上风电场则有助于可再生能源的努力。此外，“水下施工”在栖息地恢复项目中发挥着重要作用，在这些项目中，建筑结构旨在促进海洋生物和生物多样性。总之，“水下施工”是一个复杂而迷人的领域，结合了工程、建筑和环境科学。随着我们的社会不断扩展并寻求利用水资源的新方法，对这一领域熟练专业人员的需求只会增加。通过采用创新技术并遵循严格的安全标准，我们可以确保“水下施工”不仅满足我们的基础设施需求，还能保护和维护我们珍贵的水下生态系统。