cellular sheet pile wharf

简明释义

组格式板桩码头

英英释义

例句

1.Engineers recommended a cellular sheet pile wharf 细胞式打桩码头 for the new port to withstand harsh marine conditions.

工程师建议在新港口使用细胞式打桩码头，以抵御恶劣的海洋条件。

2.The cellular sheet pile wharf 细胞式打桩码头 provides excellent durability and longevity for waterfront facilities.

细胞式打桩码头为滨水设施提供了出色的耐久性和使用寿命。

3.The construction of the cellular sheet pile wharf 细胞式打桩码头 was completed ahead of schedule, allowing for increased shipping capacity.

细胞式打桩码头的建设提前完成，增加了装船能力。

4.During the site visit, we observed the installation of a cellular sheet pile wharf 细胞式打桩码头 that will support heavy cargo operations.

在现场考察期间，我们观察到正在安装一个将支持重型货物作业的细胞式打桩码头。

5.The cellular sheet pile wharf 细胞式打桩码头 design helps to minimize wave impact on the vessels docked.

细胞式打桩码头的设计有助于最小化停靠船只受到的波浪冲击。

作文

The construction of modern infrastructure often involves innovative engineering solutions that can withstand the challenges posed by nature. One such solution is the use of a cellular sheet pile wharf, which has become increasingly popular in coastal and riverine projects. A cellular sheet pile wharf is essentially a structure made from interlocking sheet piles that form a series of cells or compartments. This design provides enhanced stability and strength, making it ideal for supporting heavy loads, such as ships and cargo. In recent years, the demand for efficient and durable waterfront structures has grown significantly due to the expansion of trade and transportation. The cellular sheet pile wharf serves as a crucial interface between land and water, allowing for the safe docking of vessels while minimizing the environmental impact on surrounding ecosystems. The unique design of this type of wharf allows for better load distribution, reducing the risk of deformation or failure under stress. One of the primary advantages of a cellular sheet pile wharf is its ability to resist lateral forces, such as those caused by waves, currents, and wind. The cellular structure effectively absorbs and dissipates these forces, ensuring that the wharf remains stable even during adverse weather conditions. Additionally, the use of steel or reinforced concrete in the construction of these wharfs enhances their durability, providing a long-lasting solution for maritime operations.Another significant benefit of a cellular sheet pile wharf is its versatility in design and application. Engineers can tailor the dimensions and configurations of the cellular structure to meet specific project requirements. Whether it is for a small marina or a large commercial port, the adaptability of this type of wharf makes it suitable for various applications across different environments. Moreover, the construction process of a cellular sheet pile wharf is relatively efficient compared to traditional wharf designs. The interlocking nature of the sheet piles allows for quicker assembly and installation, reducing labor costs and project timelines. This efficiency is particularly beneficial for projects that require rapid completion due to economic or operational constraints. Environmental considerations are also paramount in modern engineering practices. The cellular sheet pile wharf can be designed to include features that promote marine life, such as artificial reefs or habitats within the cellular compartments. By integrating ecological elements into the design, engineers can create structures that not only serve functional purposes but also contribute to the sustainability of aquatic ecosystems. In conclusion, the cellular sheet pile wharf represents a significant advancement in maritime infrastructure. Its unique design offers numerous advantages, including enhanced stability, versatility, and environmental compatibility. As global trade continues to expand, the demand for efficient and resilient waterfront structures will only increase. The cellular sheet pile wharf is poised to play a vital role in meeting these demands, ensuring safe and sustainable operations for years to come.

现代基础设施的建设通常涉及能够应对自然挑战的创新工程解决方案。其中一种解决方案是使用细胞式护岸桩码头，这种结构在海岸和河流项目中越来越受欢迎。细胞式护岸桩码头本质上是由相互连接的护岸桩构成的一系列单元或隔间。这种设计提供了增强的稳定性和强度，使其非常适合支持重载，如船舶和货物。近年来，由于贸易和运输的扩展，对高效耐用的水边结构的需求显著增长。细胞式护岸桩码头作为陆地和水域之间的重要接口，允许船只安全停靠，同时最小化对周围生态系统的环境影响。这种类型码头的独特设计允许更好的负载分配，降低在压力下变形或失效的风险。细胞式护岸桩码头的主要优势之一是其抵抗侧向力的能力，例如波浪、潮流和风引起的力量。细胞结构有效地吸收和消散这些力量，确保码头在恶劣天气条件下仍然保持稳定。此外，使用钢材或钢筋混凝土建造这些码头增强了它们的耐用性，为海事操作提供了持久的解决方案。细胞式护岸桩码头的另一个显著好处是其设计和应用的多样性。工程师可以根据具体项目要求量身定制细胞结构的尺寸和配置。无论是小型码头还是大型商业港口，这种码头的适应性使其适合在不同环境中的各种应用。此外，细胞式护岸桩码头的施工过程相较于传统码头设计相对高效。护岸桩的相互连接性质允许更快的组装和安装，从而降低人工成本和项目时间表。这种效率对于由于经济或运营限制而需要快速完成的项目尤为有利。环境考虑在现代工程实践中也至关重要。细胞式护岸桩码头可以设计成包括促进海洋生物的特征，例如在细胞隔间内设置人工礁或栖息地。通过将生态元素融入设计，工程师可以创建既能满足功能需求又能促进水生生态系统可持续性的结构。总之，细胞式护岸桩码头代表了海事基础设施的重要进步。其独特的设计提供了许多优势，包括增强的稳定性、多功能性和环境兼容性。随着全球贸易的持续扩展，对高效和韧性水边结构的需求只会增加。细胞式护岸桩码头将在满足这些需求方面发挥重要作用，确保未来多年的安全和可持续操作。