cellular dam

简明释义

框格坝

英英释义

例句

1.The research team developed a new type of cellular dam to control water flow in urban areas.

研究小组开发了一种新型的细胞坝来控制城市地区的水流。

2.The cellular dam technology has been implemented in several parks to enhance biodiversity.

在几个公园中实施了细胞坝技术，以增强生物多样性。

3.Engineers are studying the impact of cellular dams on local ecosystems.

工程师们正在研究细胞坝对当地生态系统的影响。

4.By using a cellular dam, we can effectively manage stormwater runoff.

通过使用细胞坝，我们可以有效管理雨水径流。

5.The city council approved funding for a new cellular dam project aimed at flood prevention.

市议会批准了一个新的细胞坝项目的资金，旨在防止洪水。

作文

In the realm of modern science and engineering, the term cellular dam refers to a specific type of structure designed to control water flow and manage reservoirs. These innovative dams are characterized by their cellular design, which utilizes a series of interconnected chambers or cells to create a robust barrier against water. The concept of a cellular dam has gained traction due to its ability to provide enhanced stability and efficiency in water management systems. One of the primary advantages of a cellular dam is its adaptability to various environmental conditions. Unlike traditional dams that may require extensive materials and labor, a cellular dam can be constructed using local materials, making it more cost-effective and environmentally friendly. This adaptability allows engineers to design dams that suit the specific geographical and hydrological characteristics of an area, thus optimizing water retention and flood control. Moreover, the design of a cellular dam promotes better water flow management. The interconnected cells allow for controlled release of water, reducing the risk of sudden flooding downstream. This feature is particularly crucial in regions prone to heavy rainfall or rapid snowmelt, where traditional dams might struggle to accommodate sudden surges in water levels. By using a cellular structure, engineers can ensure that water is released gradually, minimizing the impact on surrounding ecosystems and communities.Another significant benefit of a cellular dam is its potential for ecological preservation. Traditional dams often disrupt local wildlife habitats and alter natural water flows, leading to detrimental effects on biodiversity. In contrast, the cellular design can be engineered to maintain more natural flow patterns, allowing fish and other aquatic life to thrive. This consideration for ecological balance is increasingly important as society becomes more aware of the need to protect our natural resources.The implementation of cellular dams is not without challenges. While their design offers numerous benefits, there are still technical hurdles to overcome. Engineers must ensure that the materials used are durable and capable of withstanding the pressures exerted by large volumes of water. Additionally, thorough testing and modeling are essential to predict how these structures will behave under various conditions, including extreme weather events.As we look towards the future of water management, the role of the cellular dam will likely become more prominent. With climate change leading to unpredictable weather patterns and increased flooding risks, innovative solutions like cellular dams will be essential in safeguarding communities and preserving natural ecosystems. Their design reflects a shift towards more sustainable engineering practices, emphasizing the importance of harmonizing human needs with environmental stewardship.In conclusion, the cellular dam represents a significant advancement in dam technology, offering a versatile and environmentally conscious alternative to traditional structures. As we continue to face challenges related to water management and climate change, embracing such innovations will be crucial in creating resilient infrastructure that supports both human populations and the natural world. The future of water management lies in understanding and implementing solutions like the cellular dam, which prioritize sustainability and adaptability in the face of changing environmental conditions.

在现代科学和工程领域，术语cellular dam指的是一种特定类型的结构，旨在控制水流和管理水库。这些创新的坝体以其细胞设计为特点，利用一系列相互连接的腔室或单元来创建一个强大的水障碍。cellular dam的概念因其能够提供更高的稳定性和效率而受到关注，尤其是在水管理系统中。cellular dam的主要优点之一是其对各种环境条件的适应性。与传统大坝需要大量材料和劳动力不同，细胞坝可以使用当地材料建造，使其更具成本效益且更环保。这种适应性使工程师能够设计出适合特定地理和水文特征的坝，从而优化水的保持和洪水控制。此外，cellular dam的设计促进了更好的水流管理。相互连接的单元允许控制水的释放，减少下游突然洪水的风险。这一特点在降雨量大或迅速融雪的地区尤为关键，传统坝可能难以应对水位的突然上升。通过使用细胞结构，工程师可以确保水逐渐释放，最大限度地减少对周围生态系统和社区的影响。cellular dam的另一个重要好处是其对生态保护的潜力。传统大坝往往会破坏当地野生动物栖息地并改变自然水流，从而对生物多样性造成不利影响。相比之下，细胞设计可以被工程化以维持更自然的流动模式，使鱼类和其他水生生物得以繁荣。考虑到生态平衡，这一点在社会越来越意识到保护自然资源的重要性时显得尤为重要。尽管cellular dams的实施并非没有挑战。虽然它们的设计提供了许多好处，但仍然存在技术障碍需要克服。工程师必须确保所用材料耐用，并能承受大量水施加的压力。此外，进行全面的测试和建模对于预测这些结构在各种条件下的表现至关重要，包括极端天气事件。展望未来，cellular dam在水管理中的作用可能会变得更加突出。随着气候变化导致天气模式不可预测和洪水风险增加，像细胞坝这样的创新解决方案将在保护社区和维护自然生态系统方面至关重要。它们的设计反映了向更可持续工程实践转变的趋势，强调了人类需求与环境管理之间的和谐重要性。总之，cellular dam代表了大坝技术的一项重大进步，提供了一种多功能且环保的替代传统结构。随着我们继续面临与水管理和气候变化相关的挑战，拥抱这样的创新将对创建支持人类和自然世界的韧性基础设施至关重要。水管理的未来在于理解和实施像cellular dam这样的解决方案，这些方案优先考虑可持续性和适应性，以应对不断变化的环境条件。