cavity dam
简明释义
框格坝
英英释义
例句
1.The cavity dam 空腔坝 was designed with a unique structure to enhance its stability and efficiency.
这座<期望类='term'>空腔坝采用了独特的结构设计,以增强其稳定性和效率。
2.During the site visit, we observed the construction of a cavity dam 空腔坝 that would help manage floodwaters.
在现场访问期间,我们观察到一座正在建造的<期望类='term'>空腔坝,这将有助于管理洪水。
3.After the heavy rains, the cavity dam 空腔坝 successfully controlled the water levels in the reservoir.
经过大雨后,<期望类='term'>空腔坝成功地控制了水库的水位。
4.The engineers discussed the design of the cavity dam 空腔坝 to ensure it could withstand high water pressure.
工程师们讨论了<期望类='term'>空腔坝的设计,以确保它能够承受高水压力。
5.The maintenance team regularly checks the integrity of the cavity dam 空腔坝 to prevent any structural failures.
维护团队定期检查<期望类='term'>空腔坝的完整性,以防止任何结构故障。
作文
In the field of civil engineering, the construction of dams plays a crucial role in water management, flood control, and power generation. Among the various types of dams, the cavity dam is an innovative design that has gained attention due to its unique structural features and advantages. A cavity dam is characterized by its hollow structure which allows for a combination of strength and reduced material usage. This type of dam not only provides the necessary resistance against water pressure but also minimizes the environmental impact associated with traditional solid dams.The concept of a cavity dam is based on the principle of utilizing air-filled cavities within the dam's body. These cavities serve multiple purposes, including reducing the overall weight of the dam and enhancing its stability. By distributing the force exerted by the water more evenly across the structure, a cavity dam can withstand extreme conditions such as heavy rainfall or seismic activity. This innovative approach allows engineers to design dams that are not only efficient but also environmentally friendly.One of the significant advantages of a cavity dam is its ability to adapt to various geological conditions. Unlike traditional dams that may require extensive excavation and alteration of the landscape, a cavity dam can be constructed with minimal disruption to the surrounding ecosystem. This adaptability makes it an ideal choice for locations where preserving natural habitats is a priority.Furthermore, the construction process of a cavity dam can be more cost-effective compared to conventional dams. The reduction in material requirements leads to lower construction costs, while the quicker installation time can significantly decrease labor expenses. This economic efficiency is particularly beneficial for developing regions where budget constraints often limit infrastructure projects.In addition to its structural benefits, a cavity dam can also contribute to sustainable energy production. Many modern dams are equipped with hydroelectric power generation systems, and the design of a cavity dam is not without its challenges. The design and construction require advanced engineering techniques and thorough understanding of hydrology and geology. Engineers must carefully assess the site conditions to ensure that the dam will perform as intended over its lifespan. Additionally, ongoing maintenance and monitoring are essential to address any potential issues that may arise due to the unique structure of a cavity dam represents a significant advancement in dam technology, offering a blend of strength, efficiency, and environmental consideration. As we continue to face challenges related to water management and climate change, innovative solutions like the 空腔坝因其独特的结构特点和优势而受到关注。空腔坝的特点是其空心结构,这使得它能够在强度和材料使用减少之间取得平衡。这种类型的水坝不仅提供了抵抗水压力所需的强度,还最小化了与传统实体坝相关的环境影响。空腔坝的概念基于在大坝体内利用充满空气的空腔的原理。这些空腔具有多重用途,包括减少大坝的整体重量和增强其稳定性。通过更均匀地分配水施加的力量,空腔坝可以承受极端条件,如强降雨或地震活动。这种创新的方法使工程师能够设计出不仅高效而且环保的大坝。空腔坝的一个显著优势是其适应各种地质条件的能力。与可能需要广泛挖掘和改变地形的传统坝不同,空腔坝可以在对周围生态系统造成最小干扰的情况下建造。这种适应性使其成为优先考虑保护自然栖息地的地区的理想选择。此外,空腔坝的建设过程相比传统坝可能更具成本效益。材料需求的减少导致建设成本降低,而更快的安装时间可以显著降低人工费用。这种经济效率对于预算有限的发展地区尤其有利。除了其结构优势外,空腔坝还可以促进可持续能源的生产。许多现代水坝都配备了水电发电系统,而空腔坝的设计允许在不妨碍大坝完整性的情况下融入涡轮机和其他机械设备。随着世界向可再生能源转型,高效利用水电的能力变得越来越重要。然而,像任何工程解决方案一样,空腔坝也面临着挑战。设计和施工需要先进的工程技术以及对水文学和地质学的深入理解。工程师必须仔细评估现场条件,以确保大坝在其使用寿命内的性能。此外,持续的维护和监测对于解决由于空腔坝代表了大坝技术的重要进步,提供了强度、效率和环境考虑的结合。随着我们继续面临与水资源管理和气候变化相关的挑战,像