caisson quaywall

简明释义

沉箱岸壁

英英释义

例句

1.Local fishermen often dock their boats next to the caisson quaywall for easy access.

当地渔民常常把船停靠在沉箱码头墙旁边，以方便出入。

2.Engineers designed the caisson quaywall to withstand heavy cargo loads.

工程师设计了沉箱码头墙以承受重型货物的负荷。

3.During the storm, the caisson quaywall held up remarkably well against the waves.

在风暴期间，沉箱码头墙在波浪冲击下表现得相当稳固。

4.The caisson quaywall was constructed using reinforced concrete for durability.

这座沉箱码头墙采用钢筋混凝土建造，以确保耐用性。

5.The construction team installed a new caisson quaywall to enhance the port's capacity.

施工团队安装了一座新的沉箱码头墙以增强港口的容量。

作文

In the world of civil engineering and maritime construction, the term caisson quaywall plays a crucial role in ensuring the stability and functionality of waterfront structures. A caisson quaywall is essentially a type of retaining wall that is constructed using caissons, which are large, watertight structures used to hold back water while creating a foundation for docks, piers, and other marine facilities. This method of construction is particularly effective in areas where traditional methods may not be feasible due to water depth or soil conditions.The design of a caisson quaywall is a complex process that requires careful consideration of various factors, including hydrodynamics, soil mechanics, and structural integrity. Engineers must assess the environmental conditions of the site, such as wave action, tidal fluctuations, and potential scour effects caused by currents. By understanding these elements, they can create a caisson quaywall that not only meets safety standards but also enhances the durability of the structure over time.One of the primary advantages of using a caisson quaywall is its ability to provide a solid and stable foundation for heavy loads. These walls can support large vessels and equipment, making them ideal for commercial ports and shipping facilities. Additionally, the use of caissons allows for a more efficient construction process. Unlike traditional wall systems that require extensive excavation and fill, a caisson quaywall can be installed with minimal disruption to the surrounding environment.Moreover, the versatility of caisson quaywalls extends beyond their structural capabilities. They can be designed to incorporate various features, such as fenders, mooring points, and even recreational spaces. This adaptability makes them suitable for diverse applications, from industrial shipping ports to urban waterfront developments.However, constructing a caisson quaywall is not without its challenges. The installation process involves specialized equipment and skilled labor, as the caissons must be precisely positioned and anchored to withstand the forces exerted by water and soil. Furthermore, ongoing maintenance is essential to ensure the longevity of the structure. Regular inspections and repairs can prevent issues such as cracking, erosion, and deterioration caused by marine organisms.In conclusion, the term caisson quaywall represents a vital component of modern maritime infrastructure. Its unique design and construction methods offer numerous benefits, including enhanced stability, reduced environmental impact, and versatility in application. As our global economy continues to rely on maritime trade, the importance of well-designed caisson quaywalls will only increase, highlighting the need for continued innovation and excellence in civil engineering practices.

在土木工程和海洋建设的世界中，术语caisson quaywall在确保海滨结构的稳定性和功能性方面发挥着至关重要的作用。caisson quaywall本质上是一种使用沉箱建造的挡土墙，沉箱是大型的密闭结构，用于抵挡水流，同时为码头、栈桥和其他海洋设施创造基础。这种建造方法在水深或土壤条件使传统方法不可行的地区尤其有效。caisson quaywall的设计是一个复杂的过程，需要仔细考虑各种因素，包括水动力学、土壤力学和结构完整性。工程师必须评估现场的环境条件，例如波浪作用、潮汐变化和水流引起的潜在冲刷效应。通过了解这些元素，他们可以创建一个不仅符合安全标准，而且能够随着时间的推移增强结构耐久性的caisson quaywall。使用caisson quaywall的主要优点之一是它能够为重载提供坚固稳定的基础。这些墙能够支撑大型船只和设备，使其非常适合商业港口和航运设施。此外，使用沉箱可以提高施工效率。与需要大量挖掘和填充的传统墙体系统不同，caisson quaywall可以在对周围环境干扰最小的情况下安装。此外，caisson quaywalls的多功能性超越了其结构能力。它们可以设计成包含各种功能，如防撞桩、系船点，甚至休闲空间。这种适应性使其适用于多种应用，从工业航运港口到城市海滨开发。然而，建造caisson quaywall并非没有挑战。安装过程涉及专业设备和熟练工人，因为沉箱必须精确定位并锚定，以承受水和土壤施加的力量。此外，持续的维护对于确保结构的长寿至关重要。定期检查和修理可以防止裂缝、侵蚀和海洋生物造成的劣化等问题。总之，术语caisson quaywall代表了现代海洋基础设施的重要组成部分。其独特的设计和建造方法提供了许多好处，包括增强的稳定性、减少的环境影响和应用的多样性。随着全球经济继续依赖海洋贸易，设计良好的caisson quaywalls的重要性只会增加，这突显了在土木工程实践中持续创新和卓越的必要性。