floating caisson

简明释义

浮式闸门;打捞浮筒

英英释义

例句

1.During the project, the engineers faced challenges in securing the floating caisson 浮筒沉箱 against strong currents.

在项目中，工程师们面临着在强流中固定浮筒沉箱浮筒沉箱的挑战。

2.The construction team decided to use a floating caisson 浮筒沉箱 to create a stable foundation for the bridge.

施工队决定使用一个浮筒沉箱浮筒沉箱为桥梁创建一个稳定的基础。

3.By using a floating caisson 浮筒沉箱, the team was able to work in deeper water than initially expected.

通过使用浮筒沉箱浮筒沉箱，团队能够在比最初预计更深的水域工作。

4.The floating caisson 浮筒沉箱 provides excellent buoyancy, making it ideal for marine construction.

这个浮筒沉箱浮筒沉箱提供了出色的浮力，使其非常适合海洋建设。

5.The floating caisson 浮筒沉箱 was designed to be easily transported to the construction site.

这个浮筒沉箱浮筒沉箱被设计为可以轻松运输到施工现场。

作文

The construction industry has always been at the forefront of innovation, utilizing advanced techniques and materials to create structures that are both functional and aesthetically pleasing. One such innovation is the use of a floating caisson, which plays a crucial role in underwater construction projects. A floating caisson is essentially a large, hollow structure that can be floated to a specific location on water and then submerged to the desired depth. This method is particularly advantageous for building bridges, piers, and other marine infrastructures where traditional methods may prove challenging.The design of a floating caisson allows it to be towed to the construction site, significantly reducing the logistical challenges often associated with transporting heavy materials. Once in position, the caisson can be filled with water or other materials to sink it to the seabed. This process minimizes disruption to the surrounding environment and provides a stable foundation for further construction work. The versatility of a floating caisson makes it an ideal choice for various marine applications, including offshore wind farms and oil platforms.One of the key benefits of using a floating caisson is its ability to withstand harsh marine conditions. The robust design ensures that it can endure strong currents and high waves, which are common challenges in coastal areas. Additionally, the buoyancy provided by the caisson allows for easy adjustments during installation, ensuring that the structure is perfectly aligned before it is permanently fixed in place.Moreover, the environmental impact of using a floating caisson is relatively low compared to traditional construction methods. Since the caisson is assembled off-site and then floated to the location, there is less disturbance to marine life and habitats. This aspect is increasingly important as the construction industry seeks to adopt more sustainable practices. By minimizing the footprint of construction activities, a floating caisson helps preserve the delicate balance of marine ecosystems.In conclusion, the floating caisson represents a significant advancement in marine construction technology. Its unique design and functionality not only enhance the efficiency of building underwater structures but also contribute to environmentally conscious construction practices. As we continue to face challenges related to climate change and rising sea levels, the use of innovative solutions like the floating caisson will be essential in developing resilient infrastructure that meets the needs of future generations. The construction industry must embrace these advancements to ensure that our marine environments are protected while still allowing for growth and development.

建筑行业一直走在创新的前沿，利用先进的技术和材料来创建既实用又美观的结构。其中一种创新是使用浮筒沉箱，它在水下施工项目中发挥着至关重要的作用。浮筒沉箱本质上是一个大型的空心结构，可以在水面上漂浮到特定位置，然后沉入所需深度。这种方法对于建造桥梁、码头和其他海洋基础设施尤其有利，因为传统方法可能会遇到挑战。浮筒沉箱的设计使其能够被拖到施工现场，显著减少了运输重型材料时常见的后勤挑战。一旦到位，沉箱可以填充水或其他材料以将其沉入海床。这个过程最小化了对周围环境的干扰，并为进一步的施工工作提供了稳定的基础。浮筒沉箱的多功能性使其成为各种海洋应用的理想选择，包括海上风电场和石油平台。使用浮筒沉箱的一个主要好处是其能够承受恶劣的海洋条件。坚固的设计确保其能够抵御强流和高浪，这在沿海地区是常见的挑战。此外，沉箱提供的浮力使得在安装过程中容易进行调整，确保结构在永久固定之前完美对齐。此外，与传统施工方法相比，使用浮筒沉箱的环境影响相对较低。由于沉箱是在现场外组装然后漂浮到位置，因此对海洋生物和栖息地的干扰较小。随着建筑行业寻求采用更可持续的实践，这一方面变得越来越重要。通过最小化施工活动的足迹，浮筒沉箱有助于保护海洋生态系统的微妙平衡。总之，浮筒沉箱代表了海洋施工技术的重大进步。其独特的设计和功能不仅提高了水下结构建设的效率，而且促进了环保的施工实践。随着我们继续面临与气候变化和海平面上升相关的挑战，像浮筒沉箱这样的创新解决方案的使用将在开发能够满足未来世代需求的韧性基础设施中至关重要。建筑行业必须拥抱这些进步，以确保我们的海洋环境得到保护，同时仍允许增长和发展。