synchronizing at load

简明释义

负载同步

英英释义

例句

1.The system is designed for synchronizing at load to ensure data consistency during peak usage.

该系统旨在实现在负载下同步，以确保高峰使用期间的数据一致性。

2.Our new protocol focuses on synchronizing at load to maintain service reliability.

我们的新协议专注于在负载下同步以保持服务可靠性。

3.By synchronizing at load, we can minimize downtime and enhance user experience.

通过在负载下同步，我们可以最小化停机时间并提升用户体验。

4.The engineers implemented a feature for synchronizing at load to handle traffic spikes efficiently.

工程师们实施了一项功能，以有效处理流量高峰的在负载下同步。

5.During the testing phase, we observed that synchronizing at load improved response times significantly.

在测试阶段，我们观察到在负载下同步显著改善了响应时间。

作文

In the realm of electrical engineering and power systems, the term synchronizing at load refers to the process of aligning the phase and frequency of a generator with that of the grid while it is under load. This concept is crucial for maintaining stability and efficiency in power distribution networks. When a generator is connected to the grid, it must not only match the frequency but also ensure that the voltage levels are compatible. The process of synchronizing at load becomes even more critical during peak demand periods when the system is under maximum stress.The significance of synchronizing at load can be illustrated through various scenarios. For instance, consider a power plant that is tasked with supplying electricity to a city. During the day, when the demand for electricity surges, the plant must bring additional generators online. However, simply turning on these generators is not enough; they must be synchronized with the existing grid. If synchronization is performed incorrectly, it could lead to power surges, equipment damage, or even blackouts.The procedure for synchronizing at load involves several steps. First, engineers monitor the frequency and phase of the incoming generator and compare them to those of the grid. They then adjust the speed of the generator to match the grid frequency. Once the frequencies are aligned, the next step is to match the voltage levels. This is done by adjusting the excitation system of the generator, which controls the output voltage. Only after these adjustments are made can the generator be connected to the grid without causing disturbances.Moreover, synchronizing at load requires real-time monitoring and control systems. Advanced technologies such as SCADA (Supervisory Control and Data Acquisition) systems are employed to facilitate this process. These systems provide operators with the necessary data to make informed decisions about when and how to synchronize generators. By utilizing such technologies, power plants can enhance their operational efficiency and reliability.Additionally, the importance of synchronizing at load extends beyond just technical aspects; it also has economic implications. Efficient synchronization reduces the risks of outages and maintenance costs associated with equipment failure. Furthermore, it enables power plants to respond swiftly to fluctuations in demand, ensuring that consumers receive a consistent supply of electricity. This reliability is essential for industries that rely on continuous power, such as manufacturing and healthcare.In conclusion, the concept of synchronizing at load is vital for the effective operation of power systems. It ensures that generators can be integrated into the grid safely and efficiently, particularly during high-demand periods. Understanding this process is not only crucial for engineers and operators but also for anyone interested in the complexities of modern power systems. As the demand for electricity continues to grow, the ability to synchronize generators effectively will play an increasingly important role in ensuring a stable and reliable power supply.

在电气工程和电力系统领域，短语synchronizing at load指的是在负载情况下将发电机的相位和频率与电网对齐的过程。这个概念对于维护电力分配网络的稳定性和效率至关重要。当发电机与电网连接时，它不仅必须匹配频率，还必须确保电压水平兼容。在电力需求高峰期，synchronizing at load的过程变得尤为关键，因为此时系统承受着最大压力。synchronizing at load的重要性可以通过多种场景来说明。例如，考虑一个负责向城市供电的发电厂。在白天，当电力需求激增时，发电厂必须启动额外的发电机。然而，仅仅开启这些发电机是不够的；它们必须与现有电网同步。如果同步操作不当，可能会导致电力浪涌、设备损坏甚至停电。synchronizing at load的程序涉及几个步骤。首先，工程师监测进入发电机的频率和相位，并将其与电网的频率和相位进行比较。然后，他们调整发电机的转速以匹配电网频率。一旦频率对齐，下一步是匹配电压水平。这是通过调整发电机的励磁系统来完成的，该系统控制输出电压。只有在进行这些调整后，发电机才能安全地连接到电网，而不会造成干扰。此外，synchronizing at load需要实时监测和控制系统。先进的技术，如SCADA（监控和数据采集）系统被用于促进这一过程。这些系统为操作员提供必要的数据，以便做出关于何时以及如何同步发电机的明智决策。通过利用这些技术，发电厂可以提高其运营效率和可靠性。此外，synchronizing at load的重要性不仅限于技术方面；它还具有经济意义。有效的同步减少了停电和与设备故障相关的维护成本的风险。此外，它使发电厂能够快速响应需求波动，确保消费者获得稳定的电力供应。这种可靠性对于依赖持续供电的行业至关重要，例如制造业和医疗保健。总之，synchronizing at load的概念对于电力系统的有效运行至关重要。它确保发电机能够安全高效地集成到电网中，特别是在高需求时期。理解这一过程不仅对工程师和操作员至关重要，也对任何对现代电力系统复杂性感兴趣的人而言都是如此。随着电力需求的不断增长，有效同步发电机的能力将在确保稳定可靠的电力供应中发挥越来越重要的作用。