lockfilling and emptying system

简明释义

船闸充水与泄水系统

英英释义

例句

1.During the storm, the lockfilling and emptying system helped prevent flooding in the area.

在暴风雨期间，锁填充和排空系统帮助防止了该地区的洪水。

2.The engineer explained how the lockfilling and emptying system works in the new dam project.

工程师解释了新大坝项目中的锁填充和排空系统是如何工作的。

3.We need to regularly maintain the lockfilling and emptying system to ensure efficient operation.

我们需要定期维护锁填充和排空系统以确保高效运作。

4.The technician demonstrated how to operate the lockfilling and emptying system safely.

技术员演示了如何安全操作锁填充和排空系统。

5.The lockfilling and emptying system is crucial for managing water levels in the reservoir.

在水库中，锁填充和排空系统对于管理水位至关重要。

作文

The concept of a lockfilling and emptying system is crucial in the realm of hydraulic engineering, especially when dealing with navigable waterways. This system plays a vital role in managing water levels within locks, which are essential for allowing vessels to pass through different elevations in rivers or canals. Understanding how this system operates not only enhances our knowledge of waterway management but also highlights its importance in facilitating trade and transportation.A lockfilling and emptying system essentially consists of a series of gates and valves that control the flow of water into and out of a lock chamber. When a vessel arrives at a lock, the chamber needs to be filled or emptied to match the water level of the adjacent section of the waterway. For example, if a boat is traveling upstream, the lock must be filled with water to raise the vessel to the higher elevation.The filling process begins when the lock gates are closed, and water is allowed to flow into the chamber through large pipes or sluices. The rate at which the water fills the lock can be controlled by adjusting the valves, ensuring that the process is efficient and safe. During this time, the lock operators monitor the water levels closely to avoid flooding or other complications.Once the lock is full and the water level matches that of the upstream section, the lock gates open, allowing the vessel to continue its journey. Conversely, when a vessel is traveling downstream, the lockfilling and emptying system must work in reverse. The lock chamber is filled with water from the lower section of the waterway to lower the vessel to the next level down.The operational efficiency of a lockfilling and emptying system is essential for minimizing delays in shipping traffic. Modern systems often utilize automated controls, which can significantly speed up the process. Automation allows for precise control over water levels and flow rates, reducing human error and improving safety. Moreover, advancements in technology have led to the development of environmentally friendly systems that minimize the impact on local ecosystems.In addition to their practical applications, lockfilling and emptying systems also serve an educational purpose. They exemplify the principles of fluid dynamics and engineering design, providing students and professionals with real-world examples of theoretical concepts. Learning about these systems can inspire future innovations in water management and engineering practices.In conclusion, the lockfilling and emptying system is a fundamental component of modern navigation systems. Its ability to regulate water levels efficiently ensures that vessels can traverse waterways safely and effectively. As we continue to develop and refine these systems, it is essential to consider both their operational efficiency and their environmental impact. Understanding the intricacies of this system not only enhances our appreciation for hydraulic engineering but also emphasizes the importance of sustainable practices in managing our water resources.

“锁填充和排空系统”的概念在水利工程领域至关重要，尤其是在可通航水道的管理中。该系统在管理船闸内的水位方面发挥着重要作用，船闸对于允许船只通过河流或运河的不同海拔是必不可少的。理解这个系统的运作不仅增强了我们对水道管理的知识，也突显了它在促进贸易和运输中的重要性。“锁填充和排空系统”基本上由一系列门和阀门组成，这些门和阀门控制着水流进出船闸室。当船只到达船闸时，需要填充或排空船闸，以匹配与水道相邻部分的水位。例如，如果一艘船正在向上游行驶，则必须向船闸注入水以将船抬升到更高的高度。填充过程开始时，船闸门关闭，水通过大型管道或水闸流入船闸室。可以通过调节阀门来控制水填充船闸的速度，确保这一过程高效且安全。在此期间，船闸操作员密切监视水位，以避免洪水或其他并发症。一旦船闸充满水且水位与上游部分匹配，船闸门就会打开，允许船只继续其旅程。相反，当船只向下游行驶时，“锁填充和排空系统”必须反向工作。船闸室从水道的下部充满水，以将船只降低到下一个低点。“锁填充和排空系统”的操作效率对于减少航运交通中的延误至关重要。现代系统通常采用自动化控制，这可以显著加快这一过程。自动化允许对水位和流量进行精确控制，减少人为错误，提高安全性。此外，技术的进步导致开发出环保系统，最大限度地减少对当地生态系统的影响。除了实际应用外，“锁填充和排空系统”还具有教育意义。它们体现了流体动力学和工程设计的原理，为学生和专业人士提供了理论概念的现实世界示例。学习这些系统可以激励未来在水资源管理和工程实践方面的创新。总之，“锁填充和排空系统”是现代导航系统的基本组成部分。它有效调节水位的能力确保船只能够安全有效地穿越水道。随着我们继续开发和完善这些系统，考虑它们的操作效率和环境影响至关重要。理解这个系统的复杂性不仅增强了我们对水利工程的欣赏，还强调了在管理水资源时可持续实践的重要性。