reclosing time

简明释义

重合时间

英英释义

例句

1.The utility company has set the reclosing time to minimize outages during peak hours.

公用事业公司设定了重闭合时间以减少高峰时段的停电。

2.Engineers need to calculate the optimal reclosing time to ensure safety and reliability.

工程师需要计算最佳的重闭合时间以确保安全和可靠性。

3.The system automatically adjusts the reclosing time based on the load conditions.

系统会根据负载情况自动调整重闭合时间。

4.A shorter reclosing time can help reduce the risk of equipment damage during faults.

较短的重闭合时间可以帮助减少故障期间设备损坏的风险。

5.After the circuit breaker trips, the reclosing time is crucial for restoring power quickly.

当断路器跳闸后，重闭合时间对快速恢复电力至关重要。

作文

In today's fast-paced world, the concept of efficiency is paramount in every aspect of our lives. One area where efficiency plays a critical role is in the management of electrical systems, particularly in relation to the operation of circuit breakers. A key term that often arises in this context is reclosing time, which refers to the duration it takes for a circuit breaker to automatically close after it has opened due to a fault in the system. Understanding reclosing time is essential for ensuring the reliability and stability of electrical networks.When a fault occurs in an electrical system, such as a short circuit or an overload, the circuit breaker is designed to open and disconnect the affected section from the power supply. This action prevents further damage to the system and protects equipment from potential hazards. However, once the fault has been cleared, it is crucial for the circuit breaker to close again promptly to restore power. This is where reclosing time comes into play.The reclosing time can vary depending on several factors, including the type of circuit breaker, the settings configured by the utility company, and the nature of the fault. For instance, some modern circuit breakers are equipped with advanced technology that allows them to detect transient faults—temporary issues that may resolve themselves quickly. In such cases, a shorter reclosing time can be beneficial, as it minimizes the downtime of the electrical supply and enhances overall system performance.On the other hand, if the fault is persistent, a longer reclosing time might be implemented to prevent repeated attempts to reconnect, which could lead to further complications or damage. Utilities often analyze historical data to determine the optimal reclosing time for different scenarios, balancing the need for quick restoration with the safety of the system.The implications of reclosing time extend beyond just technical considerations; they also have economic impacts. In industries where electrical outages can result in significant financial losses, minimizing reclosing time is a priority. For example, in manufacturing plants, prolonged power interruptions can halt production lines, leading to wasted resources and lost revenue. Therefore, companies invest in technologies and strategies that optimize reclosing time to ensure operational continuity.Moreover, the concept of reclosing time is not limited to large-scale electrical grids. It is equally relevant in residential settings, where circuit breakers protect homes from electrical faults. Homeowners are often unaware of the intricacies involved in their electrical systems, yet understanding the importance of reclosing time can empower them to make informed decisions regarding their electrical safety and maintenance.In conclusion, the term reclosing time encapsulates a vital aspect of electrical engineering and system management. Its significance lies in its ability to influence both the reliability of electrical systems and the economic outcomes for businesses and households alike. As technology continues to evolve, the optimization of reclosing time will remain a focal point for engineers and utility providers, ensuring that we can enjoy uninterrupted power while maintaining safety and efficiency in our electrical infrastructure.

在当今快节奏的世界中，效率的概念在我们生活的各个方面都是至关重要的。在电气系统的管理中，效率发挥着关键作用，尤其是在断路器的操作方面。一个经常出现的关键术语是重合闸时间，它指的是断路器因系统故障而打开后，自动关闭所需的持续时间。理解重合闸时间对于确保电力网络的可靠性和稳定性至关重要。当电气系统发生故障时，例如短路或过载，断路器会设计为打开并将受影响的部分与电源断开。这一行动防止了系统进一步的损坏，并保护设备免受潜在的危险。然而，一旦故障被清除，断路器及时关闭以恢复电力就显得尤为重要。这就是重合闸时间发挥作用的地方。重合闸时间可能因多种因素而异，包括断路器的类型、公共事业公司配置的设置以及故障的性质。例如，一些现代断路器配备了先进的技术，可以检测瞬态故障——可能很快自行解决的临时问题。在这种情况下，更短的重合闸时间可能是有益的，因为它最小化了电力供应的停机时间并增强了整体系统性能。另一方面，如果故障是持续的，则可能实施更长的重合闸时间以防止反复尝试重新连接，这可能导致进一步的复杂情况或损坏。公用事业公司通常分析历史数据，以确定不同场景下的最佳重合闸时间，在快速恢复的需求与系统安全之间取得平衡。重合闸时间的影响不仅限于技术考虑；它们还有经济影响。在电力中断可能导致重大财务损失的行业中，最小化重合闸时间是一个优先事项。例如，在制造工厂中，延长的电力中断可能会停止生产线，导致资源浪费和收入损失。因此，公司投资于优化重合闸时间的技术和策略，以确保运营的连续性。此外，重合闸时间的概念并不限于大规模电网。在住宅环境中同样相关，断路器保护家庭免受电气故障的影响。房主通常对其电气系统的复杂性一无所知，但理解重合闸时间的重要性可以使他们能够做出有关电气安全和维护的明智决策。总之，重合闸时间这一术语概括了电气工程和系统管理的一个重要方面。它的重要性在于它能够影响电气系统的可靠性以及企业和家庭的经济结果。随着技术的不断发展，优化重合闸时间将继续成为工程师和公用事业提供者的关注点，确保我们能够享受不间断的电力，同时保持电气基础设施的安全性和效率。