bank revetment

简明释义

护岸

英英释义

例句

1.After the storm, the bank revetment held up well, preventing further damage to the nearby properties.

暴风雨过后，岸坡防护结构表现良好，防止了附近财产的进一步损害。

2.The bank revetment was designed to blend with the natural landscape while providing necessary protection.

该岸坡防护结构的设计旨在与自然景观融为一体，同时提供必要的保护。

3.Local authorities decided to invest in a new bank revetment to protect the community from flooding.

地方当局决定投资建设新的岸坡防护结构以保护社区免受洪水侵袭。

4.The construction of the bank revetment has significantly reduced soil erosion along the riverbank.

建设的岸坡防护结构显著减少了河岸的土壤侵蚀。

5.Engineers used large stones for the bank revetment to ensure stability against strong currents.

工程师们使用大石块作为岸坡防护结构，以确保抵御强流的稳定性。

作文

The concept of bank revetment is essential in the field of civil engineering and environmental management. Essentially, a bank revetment refers to a protective structure built along the banks of rivers, lakes, or other bodies of water to prevent erosion and maintain the integrity of the shoreline. This technique is particularly important in areas where water flow can lead to significant land degradation, affecting not only the natural landscape but also human activities and habitats. When we consider the importance of bank revetment, it is crucial to acknowledge the various materials and methods used in their construction. Common materials include concrete, stone, and geotextiles, which are chosen based on the specific environmental conditions and the desired durability of the structure. For example, in regions with high water flow, more robust materials like large rocks or reinforced concrete may be necessary to withstand the force of the water. Conversely, in calmer areas, less invasive materials can be employed, allowing for a more natural look while still providing protection. Moreover, the design of a bank revetment must take into account the local ecosystem. It is vital to ensure that the structure does not disrupt local wildlife or water flow patterns. Engineers often collaborate with ecologists to create designs that not only protect the bank but also enhance the surrounding environment. This could involve creating habitats for fish and other aquatic life by incorporating features such as submerged structures or planting vegetation along the revetment. In recent years, the role of bank revetment has expanded beyond mere erosion control. With the increasing impacts of climate change, including rising water levels and more frequent flooding, these structures have become integral to community resilience strategies. For instance, cities prone to flooding may invest in extensive bank revetment systems to protect critical infrastructure and residential areas from potential disaster. Furthermore, the economic implications of bank revetment cannot be overlooked. By preventing erosion and protecting valuable land, these structures help maintain property values and reduce the costs associated with repairing damage caused by water. This is particularly relevant in urban areas where waterfront properties are highly sought after. However, constructing a bank revetment is not without its challenges. Financial constraints, regulatory hurdles, and community opposition can all hinder the implementation of such projects. It is essential for stakeholders, including government agencies, local communities, and environmental groups, to engage in meaningful dialogue to address concerns and find solutions that benefit all parties involved. In conclusion, the significance of bank revetment extends far beyond its primary function of erosion control. It plays a crucial role in environmental management, community resilience, and economic stability. As we face the challenges posed by climate change, understanding and implementing effective bank revetment strategies will be vital for protecting our natural resources and ensuring the safety and well-being of our communities.

“河岸护坡”这一概念在土木工程和环境管理领域至关重要。基本上，河岸护坡是指沿河流、湖泊或其他水体的岸边建造的保护结构，以防止侵蚀并保持岸线的完整性。这种技术在水流可能导致显著土地退化的地区尤为重要，这不仅影响自然景观，还影响人类活动和栖息地。当我们考虑河岸护坡的重要性时，必须承认其建设中使用的各种材料和方法。常用材料包括混凝土、石材和土工布，这些材料根据特定的环境条件和结构所需的耐久性进行选择。例如，在水流较大的地区，可能需要更坚固的材料，如大石头或加固混凝土，以承受水的冲击。相反，在平静的区域，可以使用不那么侵入性的材料，从而在提供保护的同时保持更自然的外观。此外，河岸护坡的设计必须考虑当地生态系统。确保结构不会干扰当地野生动物或水流模式至关重要。工程师通常与生态学家合作，创造既能保护岸边又能增强周围环境的设计。这可能涉及通过加入沉没结构或沿护坡种植植被来为鱼类和其他水生生物创造栖息地。近年来，河岸护坡的角色已经超越了单纯的侵蚀控制。随着气候变化影响的增加，包括水位上升和更频繁的洪水，这些结构已成为社区韧性战略的核心。例如，易受洪水影响的城市可能会投资于广泛的河岸护坡系统，以保护关键基础设施和居民区免受潜在灾害。此外，河岸护坡的经济影响也不容忽视。通过防止侵蚀和保护有价值的土地，这些结构有助于维持物业价值，并减少由于水造成的损坏修复成本。这在水滨物业需求旺盛的城市地区尤其相关。然而，建造河岸护坡并非没有挑战。财务限制、法规障碍和社区反对都可能阻碍此类项目的实施。利益相关者，包括政府机构、当地社区和环保团体，必须进行有意义的对话，以解决问题并找到惠及所有相关方的解决方案。总之，河岸护坡的重要性远远超出了其主要的侵蚀控制功能。它在环境管理、社区韧性和经济稳定中发挥着至关重要的作用。随着我们面临气候变化带来的挑战，理解和实施有效的河岸护坡策略对于保护我们的自然资源以及确保我们社区的安全和福祉至关重要。