stoplog groove

简明释义

迭梁闸门槽

英英释义

例句

1.The water level was lowered to facilitate the removal of the stoplog groove for repairs.

水位降低，以便拆除止水板槽进行维修。

2.Proper alignment of the stoplog groove is crucial for the effective sealing of the waterway.

正确对齐止水板槽对于有效密封水道至关重要。

3.The design of the stoplog groove must accommodate varying water levels in the reservoir.

设计止水板槽时必须考虑水库中不同的水位。

4.The engineers inspected the stoplog groove to ensure it was free of debris before installation.

工程师检查了止水板槽，以确保在安装之前没有杂物。

5.During the maintenance, we noticed that the stoplog groove had some corrosion that needed to be addressed.

在维护过程中，我们注意到止水板槽有一些腐蚀，需要处理。

作文

In the field of civil engineering and water management, various structures are designed to control and manage water flow. One such crucial component is the stoplog groove, which plays a significant role in regulating water levels in reservoirs, dams, and other hydraulic systems. Understanding the function and importance of the stoplog groove can greatly enhance our appreciation for modern engineering solutions that address environmental challenges.The stoplog groove is essentially a channel or recess built into a dam or similar structure where stoplogs—large, heavy wooden or concrete beams—can be inserted or removed to control the flow of water. These grooves are strategically placed at various elevations to allow operators to adjust water levels as needed. For instance, during periods of heavy rainfall, the stoplogs can be lowered to increase the capacity of the reservoir and prevent flooding downstream. Conversely, during dry seasons, the logs can be raised to maintain adequate water levels for irrigation and other uses.One of the key advantages of using a stoplog groove system is its simplicity and effectiveness. Unlike more complex mechanical gates, stoplogs can be easily handled by workers without the need for specialized equipment. This makes them particularly useful in remote areas where access to technology may be limited. Additionally, the materials used for stoplogs are often readily available, making them a cost-effective solution for many water management projects.Moreover, the design of the stoplog groove must account for various factors, including the expected water pressure, the weight of the stoplogs, and the potential for debris accumulation. Engineers must ensure that the groove is deep and wide enough to accommodate the logs while still providing a secure fit. Proper maintenance of the groove is also essential to prevent erosion and ensure long-term functionality.In recent years, there has been a growing emphasis on sustainable water management practices. The stoplog groove system aligns well with these principles, as it allows for natural water flow regulation without relying heavily on mechanical systems that may require electricity or regular maintenance. By utilizing gravity and simple engineering concepts, the stoplog system can effectively manage water resources while minimizing environmental impact.Furthermore, the use of stoplog grooves can be seen in various applications beyond traditional dam structures. For example, they are commonly used in flood control channels, wastewater treatment facilities, and even in aquaculture operations to manage water levels in fish ponds. This versatility demonstrates the adaptability of the stoplog groove concept across different fields.In conclusion, the stoplog groove is an essential element of water management infrastructure that exemplifies the ingenuity of civil engineering. Its straightforward design and effective functionality make it a preferred choice for controlling water levels in various settings. As we continue to face challenges related to water scarcity and climate change, understanding and implementing systems like the stoplog groove will be vital in promoting sustainable practices and ensuring the responsible use of our precious water resources.

在土木工程和水管理领域，各种结构被设计用于控制和管理水流。其中一个关键组件是止水板槽，它在调节水库、坝和其他水力系统中的水位方面发挥着重要作用。理解止水板槽的功能和重要性，可以大大增强我们对现代工程解决方案的欣赏，这些解决方案旨在应对环境挑战。止水板槽本质上是建造在大坝或类似结构中的一个通道或凹槽，止水板（大型重型木材或混凝土梁）可以插入或移除，以控制水流。这些槽被战略性地放置在不同的高度，以便操作人员根据需要调整水位。例如，在降雨量大的时候，可以降低止水板以增加水库的容量，防止下游洪水。相反，在干旱季节，可以抬高止水板以维持足够的灌溉和其他用途的水位。使用止水板槽系统的一个主要优点是其简单性和有效性。与更复杂的机械闸门相比，工人可以轻松操作止水板，而无需专门的设备。这使得它们在偏远地区特别有用，因为这些地方可能缺乏技术。此外，用于止水板的材料通常很容易获得，使其成为许多水管理项目的经济有效解决方案。此外，止水板槽的设计必须考虑各种因素，包括预期的水压、止水板的重量以及潜在的碎片积累。工程师必须确保槽的深度和宽度足够容纳止水板，同时提供安全的契合。对槽的适当维护也是必不可少的，以防止侵蚀并确保长期功能。近年来，越来越强调可持续水管理实践。止水板槽系统与这些原则高度一致，因为它允许自然水流调节，而不依赖于可能需要电力或定期维护的机械系统。通过利用重力和简单的工程概念，止水系统可以有效管理水资源，同时最小化对环境的影响。此外，止水板槽的使用可以在传统大坝结构之外看到。例如，它们通常用于洪水控制渠道、废水处理设施，甚至在水产养殖操作中管理鱼塘的水位。这种多功能性展示了止水板槽概念在不同领域的适应性。总之，止水板槽是水管理基础设施的重要元素，体现了土木工程的独创性。其简单的设计和有效的功能使其成为在各种环境中控制水位的首选。随着我们继续面临与水资源短缺和气候变化相关的挑战，理解和实施像止水板槽这样的系统，将在促进可持续实践和确保负责任地使用我们珍贵的水资源方面至关重要。