sluiceway
简明释义
n. 人造水道;闸沟
英英释义
A sluiceway is a channel or passage that directs the flow of water, often used to control water levels and manage irrigation or drainage. | 水闸道是一个引导水流的通道,通常用于控制水位和管理灌溉或排水。 |
单词用法
打开闸道 | |
关闭闸道 | |
闸道闸门 | |
闸道系统 |
同义词
| 水槽 | The flume was constructed to direct water from the river to the fields. | 这个水槽是为了将河水引导到田地中而建造的。 | |
| 运河 | 这条运河用于运输货物和灌溉。 | ||
| 排水沟 | The drain helps prevent flooding in the area during heavy rains. | 这个排水沟有助于在大雨期间防止该地区的洪水。 |
反义词
| 水坝 | The dam was built to control the flow of water in the river. | 这座水坝是为了控制河水的流动而建造的。 | |
| 阻塞 | There was a blockage in the sluiceway, preventing water from flowing. | 在排水道中出现了阻塞,导致水无法流动。 |
例句
1.Underneath, visitors can stroll unaccompanied along a redolent sluiceway.
在这座博物馆底下,游客可以在无人陪伴的情况下独自沿着一条气味浓烈的泄水道漫步。
2.Underneath, visitors can stroll unaccompanied along a redolent sluiceway.
在这座博物馆底下,游客可以在无人陪伴的情况下独自沿着一条气味浓烈的泄水道漫步。
3.The city council approved funding for the maintenance of the local sluiceway system.
市议会批准了对当地排水道系统维护的资金。
4.The old sluiceway was clogged with debris, causing water levels to rise dangerously.
旧的排水道被杂物堵塞,导致水位危险上升。
5.During the storm, the sluiceway helped prevent flooding in the nearby fields.
在暴风雨期间,排水道帮助防止了附近田地的洪水。
6.The engineers designed a new sluiceway to manage the water flow more effectively.
工程师设计了一个新的排水道以更有效地管理水流。
7.Farmers rely on the sluiceway to irrigate their crops during the dry season.
农民依靠排水道在干旱季节灌溉作物。
作文
In the realm of civil engineering and water management, the term sluiceway refers to a channel or passage that is designed to control the flow of water. These structures are essential in various applications, including irrigation, flood control, and the operation of dams. The significance of a sluiceway can be understood through its function and the role it plays in managing water resources effectively.A sluiceway typically consists of a gate system that regulates the amount of water flowing through it. This regulation is crucial for maintaining the desired water levels in reservoirs and preventing overflow during periods of heavy rainfall. For instance, during the rainy season, a well-designed sluiceway can help mitigate the risk of flooding by allowing excess water to flow away from populated areas, thereby protecting homes and agricultural land.Moreover, sluiceways are often integrated into larger water management systems. In hydroelectric power plants, for example, sluiceways are used to divert water to turbines, generating electricity while also providing a means to control water levels. The efficiency of these systems greatly depends on the design and maintenance of the sluiceway. Engineers must consider factors such as water velocity, sediment transport, and potential blockages when constructing these channels.The historical context of sluiceways is also fascinating. Ancient civilizations recognized the importance of water management and built rudimentary versions of sluiceways to irrigate crops and manage floods. The ingenuity of these early engineers laid the groundwork for modern hydraulic engineering practices. Today, advanced technology allows for more precise control and monitoring of water flow, making sluiceways more efficient than ever.In addition to their practical applications, sluiceways have ecological implications. They can serve as habitats for various aquatic species, promoting biodiversity in river ecosystems. However, poorly designed sluiceways can disrupt natural water flow and harm local wildlife. Therefore, environmental considerations are increasingly being integrated into the design and construction of sluiceways. This approach ensures that while we harness water for human use, we also protect the ecosystems that depend on it.In conclusion, the concept of a sluiceway encompasses much more than just a channel for water. It represents a critical component of our infrastructure that requires careful planning and consideration. From flood control to energy production, sluiceways play an indispensable role in our society. As we continue to face challenges related to water scarcity and climate change, the importance of effective water management systems, including sluiceways, will only grow. Understanding and improving these structures is essential for sustainable development and environmental conservation.
在土木工程和水管理领域,术语sluiceway指的是一种旨在控制水流的通道或通道。这些结构在灌溉、洪水控制和大坝操作等各种应用中至关重要。通过其功能和在有效管理水资源中所扮演的角色,可以理解sluiceway的重要性。sluiceway通常由一个闸门系统组成,用于调节流过的水量。这种调节对于维持水库中的所需水位和防止在强降雨期间溢出至关重要。例如,在雨季,设计良好的sluiceway可以通过允许多余的水流离人口密集区,从而降低洪水风险,保护房屋和农田。此外,sluiceways通常被整合到更大的水管理系统中。例如,在水电站中,sluiceways用于将水引导至涡轮机,产生电力,同时也提供了一种控制水位的方法。这些系统的效率在很大程度上依赖于sluiceway的设计和维护。工程师在建造这些通道时必须考虑水流速度、沉积物运输和潜在堵塞等因素。sluiceways的历史背景也很有趣。古代文明认识到水管理的重要性,建造了原始版本的sluiceways来灌溉农作物和管理洪水。这些早期工程师的聪明才智为现代水利工程实践奠定了基础。如今,先进的技术使得对水流的更精确控制和监测成为可能,使得sluiceways比以往任何时候都更加高效。除了实用应用外,sluiceways还具有生态意义。它们可以作为各种水生物种的栖息地,促进河流生态系统的生物多样性。然而,设计不当的sluiceways可能会破坏自然水流并危害当地野生动物。因此,环境考虑越来越多地被纳入sluiceways的设计和建造中。这种方法确保了在我们利用水资源的同时,也保护了依赖于水的生态系统。总之,sluiceway的概念远不止是水的通道。它代表了我们基础设施的一个关键组成部分,需要仔细规划和考虑。从洪水控制到能源生产,sluiceways在我们的社会中发挥着不可或缺的作用。随着我们继续面临与水资源短缺和气候变化相关的挑战,有效水管理系统(包括sluiceways)的重要性只会增加。理解和改善这些结构对于可持续发展和环境保护至关重要。
