floating-bridge pier

简明释义

桥式浮码头

英英释义

例句

1.During the storm, the floating-bridge pier remained stable, showcasing its resilience.

在风暴期间，浮桥码头保持稳定，展示了其韧性。

2.The construction team is installing a new floating-bridge pier to improve access to the island.

施工团队正在安装一个新的浮桥码头以改善通往岛屿的通道。

3.Safety measures were implemented around the floating-bridge pier to protect visitors.

为了保护游客，浮桥码头周围实施了安全措施。

4.Tourists can rent boats directly from the floating-bridge pier for a scenic tour.

游客可以直接从浮桥码头租船进行观光游览。

5.The floating-bridge pier was designed to accommodate larger vessels this year.

今年的浮桥码头设计旨在容纳更大的船只。

作文

The concept of a floating-bridge pier is one that combines engineering ingenuity with the natural elements of water. A floating-bridge pier is essentially a structure that provides support for a bridge while being buoyant and able to rise and fall with the water levels. This innovative design allows bridges to remain functional in areas where traditional piers would be impractical due to fluctuating water levels, such as rivers, lakes, or coastal regions. The use of a floating-bridge pier not only enhances the durability of the bridge but also minimizes the environmental impact on the surrounding ecosystem.In many parts of the world, especially in regions prone to flooding or significant tidal changes, the implementation of floating-bridge piers has proven to be a wise choice. These structures can adapt to changing water conditions, which is crucial for maintaining safe passage for vehicles and pedestrians. For instance, during heavy rains, rivers may swell beyond their banks, but a floating-bridge pier will rise with the water, ensuring that the bridge remains accessible.Moreover, the construction of a floating-bridge pier often involves materials that are both lightweight and robust, such as reinforced concrete or specialized buoyant materials. This not only contributes to the overall safety and longevity of the bridge but also allows for easier installation and maintenance compared to traditional bridge piers. Engineers and architects must consider various factors when designing a floating-bridge pier, including the type of water body, expected fluctuations in water levels, and potential environmental impacts.One of the most notable examples of a floating-bridge pier can be found in the city of Seattle, where the Evergreen Point Floating Bridge spans Lake Washington. This bridge, which is the longest floating bridge in the world, utilizes a series of floating-bridge piers to support its structure. The design not only accommodates the lake's varying water levels but also integrates seamlessly into the landscape, providing stunning views for travelers.In addition to their practical applications, floating-bridge piers also offer unique opportunities for recreational activities. Many communities have embraced the idea of building pedestrian walkways and bike paths on top of these piers, allowing residents and visitors to enjoy the beauty of the water while staying safe and dry. This has the added benefit of promoting local tourism and enhancing community engagement with the waterfront.In conclusion, the floating-bridge pier represents a remarkable intersection of functionality and innovation in civil engineering. As we continue to face challenges posed by climate change and rising water levels, the importance of such structures will only increase. By investing in and expanding the use of floating-bridge piers, we can create safer, more resilient infrastructure that harmonizes with our natural surroundings. The future of bridge design may very well depend on our ability to adapt to the dynamic nature of our environment, making floating-bridge piers an essential component of modern engineering solutions.

“浮桥码头”的概念结合了工程的独创性和水的自然元素。浮桥码头本质上是一个为桥梁提供支撑的结构，它具有浮力，能够随着水位的升降而上下移动。这种创新设计使得桥梁在传统码头因水位波动而不切实际的地区仍然保持功能，例如河流、湖泊或沿海地区。使用浮桥码头不仅增强了桥梁的耐用性，而且最小化了对周围生态系统的环境影响。在世界许多地方，特别是在易受洪水或显著潮汐变化影响的地区，实施浮桥码头被证明是明智的选择。这些结构可以适应不断变化的水文状况，这对于维持车辆和行人安全通行至关重要。例如，在大雨期间，河流可能会超出其岸线，但浮桥码头会随着水的上涨而上升，确保桥梁保持可通行。此外，浮桥码头的建设通常涉及轻质且坚固的材料，如钢筋混凝土或专门的浮力材料。这不仅有助于桥梁的整体安全性和耐久性，还使得与传统桥梁码头相比，安装和维护更加容易。工程师和建筑师在设计浮桥码头时必须考虑多种因素，包括水体类型、水位波动的预期和潜在的环境影响。一个最显著的浮桥码头实例可以在西雅图找到，那里有横跨华盛顿湖的常青点浮桥。这座世界上最长的浮桥利用了一系列浮桥码头来支撑其结构。该设计不仅适应湖泊的变化水位，还与周围景观无缝融合，为旅行者提供了壮观的视野。除了实用应用，浮桥码头还为休闲活动提供了独特的机会。许多社区已经接受了在这些码头上建造步行道和自行车道的想法，使居民和游客能够在安全干燥的情况下欣赏水的美丽。这还带来了促进当地旅游和增强社区与海滨互动的额外好处。总之，浮桥码头代表了土木工程中功能性和创新性的非凡交汇。随着我们继续面临气候变化和水位上升带来的挑战，这种结构的重要性只会增加。通过投资和扩大浮桥码头的使用，我们可以创造出更安全、更具韧性的基础设施，与我们的自然环境和谐共存。桥梁设计的未来可能确实取决于我们适应环境动态变化的能力，使得浮桥码头成为现代工程解决方案的重要组成部分。