periodicautomatic-reclosing equipment

简明释义

周期性自动重合闸装置

英英释义

例句

1.The installation of periodicautomatic-reclosing equipment has significantly reduced the number of manual interventions needed.

安装定期自动重合闸设备显著减少了所需的人工干预次数。

2.To minimize downtime, the utility company installed periodicautomatic-reclosing equipment in its substations.

为了最小化停机时间，公用事业公司在其变电站安装了定期自动重合闸设备。

3.The maintenance team regularly checks the periodicautomatic-reclosing equipment to ensure it functions properly.

维护团队定期检查定期自动重合闸设备以确保其正常运作。

4.The new power grid design includes periodicautomatic-reclosing equipment, which enhances reliability during outages.

新的电网设计包括定期自动重合闸设备，这提高了停电期间的可靠性。

5.After a fault is detected, the periodicautomatic-reclosing equipment automatically resets the circuit after a short delay.

在检测到故障后，定期自动重合闸设备会在短暂延迟后自动重置电路。

作文

In the world of electrical engineering, the need for reliable and efficient power distribution has never been more critical. One of the key components in ensuring that electrical systems operate smoothly is the use of periodicautomatic-reclosing equipment (周期自动重合闸设备). This technology plays a vital role in maintaining the stability of electrical grids, particularly in regions prone to faults or disturbances. In this essay, we will explore the significance of periodicautomatic-reclosing equipment in modern power systems, its operational principles, and its benefits.Firstly, let us understand what periodicautomatic-reclosing equipment entails. This equipment is designed to automatically restore power after a temporary fault occurs in the electrical system. For example, during events like lightning strikes or tree falls, power lines can trip, causing outages. The periodicautomatic-reclosing equipment detects such faults and attempts to re-establish power after a predetermined period. If the fault persists, the equipment will remain in a safe state until the issue is resolved. This automatic process significantly reduces downtime and enhances the reliability of power supply.The operational principles behind periodicautomatic-reclosing equipment are quite fascinating. The equipment is equipped with sophisticated sensors and control systems that monitor the electrical flow. When a fault is detected, the system initiates a sequence of operations to isolate the affected section of the grid. After a brief interval, the equipment attempts to close the circuit again, hence the term 'reclosing.' If the fault has cleared, normal operations resume; if not, the system will wait for another cycle before attempting to reclosing again. This periodic approach is crucial as it prevents unnecessary disruptions while ensuring safety.Moreover, the benefits of implementing periodicautomatic-reclosing equipment are substantial. First and foremost, it enhances the reliability of power distribution networks. By minimizing the duration of outages, utilities can provide a more stable service to consumers. This is particularly important for industries that rely heavily on continuous power supply. Additionally, the reduction in outage times leads to lower operational costs for utility companies, as they spend less on manual interventions and repairs.Furthermore, periodicautomatic-reclosing equipment contributes to improved safety within electrical systems. By automating the reclosing process, the risk of human error is significantly reduced. Operators no longer need to manually reset circuit breakers, which can be dangerous under fault conditions. Instead, the equipment takes over, ensuring that only safe conditions are met before restoring power. This aspect is especially vital in high-voltage environments where safety is paramount.In conclusion, the importance of periodicautomatic-reclosing equipment in modern electrical systems cannot be overstated. It serves as a crucial tool in enhancing the reliability, efficiency, and safety of power distribution networks. As technology continues to evolve, we can expect further advancements in this field, leading to even more robust solutions for managing electrical faults. Ultimately, the integration of periodicautomatic-reclosing equipment into power systems is a testament to the ongoing efforts to improve our infrastructure and ensure a stable energy future.

在电气工程领域，可靠和高效的电力分配的需求从未如此重要。确保电气系统顺利运行的关键组件之一是使用周期自动重合闸设备（periodicautomatic-reclosing equipment）。这一技术在维护电网稳定性方面发挥着至关重要的作用，特别是在故障或干扰频繁的地区。在这篇文章中，我们将探讨周期自动重合闸设备在现代电力系统中的重要性、其操作原理及其带来的好处。首先，让我们了解一下周期自动重合闸设备的含义。这种设备旨在在电气系统发生临时故障后自动恢复电力。例如，在雷击或树木倒塌等事件中，电力线可能会跳闸，导致停电。周期自动重合闸设备能够检测到此类故障，并在预定时间后尝试重新建立电力。如果故障持续存在，设备将保持安全状态，直到问题解决为止。这个自动化的过程显著减少了停机时间，并增强了电力供应的可靠性。周期自动重合闸设备背后的操作原理非常有趣。该设备配备了先进的传感器和控制系统，用于监测电流。当检测到故障时，系统会启动一系列操作，以隔离电网受影响的部分。在短暂的间隔后，设备尝试再次关闭电路，因此称为“重合闸”。如果故障已经消除，正常操作将恢复；如果没有，系统将在再次尝试重合闸之前等待另一个周期。这种周期性的方法至关重要，因为它防止了不必要的中断，同时确保了安全。此外，实施周期自动重合闸设备的好处是显而易见的。首先，它增强了电力分配网络的可靠性。通过最小化停电的持续时间，公用事业公司可以向消费者提供更稳定的服务。这对于依赖连续电力供应的行业尤为重要。此外，停电时间的减少使公用事业公司降低了运营成本，因为它们在人工干预和维修上的支出减少。此外，周期自动重合闸设备有助于提高电气系统的安全性。通过自动化重合闸过程，显著降低了人为错误的风险。操作员不再需要手动重置断路器，这在故障条件下可能是危险的。相反，设备接管，确保在恢复电力之前只满足安全条件。这一方面在高压环境中尤其重要，安全是重中之重。总之，周期自动重合闸设备在现代电气系统中的重要性不容小觑。它作为增强电力分配网络可靠性、高效性和安全性的关键工具。随着技术的不断发展，我们可以期待这一领域进一步的进步，从而为管理电气故障提供更强大的解决方案。最终，将周期自动重合闸设备整合到电力系统中，证明了我们不断努力改善基础设施并确保稳定能源未来的决心。