synchronizing voltage

简明释义

同步电压

英英释义

例句

1.When two generators are paralleled, their synchronizing voltage 同步电压 must be equal to prevent damage.

当两个发电机并联时，它们的synchronizing voltage 同步电压必须相等，以防止损坏。

2.Before connecting the generator to the grid, we need to check the synchronizing voltage 同步电压 to ensure a smooth transition.

在将发电机连接到电网之前，我们需要检查synchronizing voltage 同步电压以确保平稳过渡。

3.The technician adjusted the synchronizing voltage 同步电压 to match the system frequency.

技术人员调整了synchronizing voltage 同步电压以匹配系统频率。

4.The control panel displayed the current synchronizing voltage 同步电压 during the startup sequence.

控制面板在启动过程中显示了当前的synchronizing voltage 同步电压。

5.Monitoring the synchronizing voltage 同步电压 is crucial for maintaining stable operations in power plants.

监测synchronizing voltage 同步电压对于维持发电厂的稳定运行至关重要。

作文

In the field of electrical engineering, one of the critical aspects of ensuring a stable and efficient power system is the concept of synchronizing voltage. This term refers to the voltage level that must be matched when connecting two or more electrical systems or generators in parallel. The importance of synchronizing voltage cannot be overstated, as it plays a vital role in maintaining the integrity and reliability of the power supply. When two generators are brought online, they must operate at the same voltage, frequency, and phase angle to avoid any disturbances that could lead to system failures or outages.To further understand synchronizing voltage, we can consider the process of synchronizing generators. When a new generator is added to an existing grid, engineers must ensure that its output voltage matches the voltage of the grid. If there is a discrepancy, it can cause significant issues, such as electrical shocks, mechanical stress on equipment, and even catastrophic failures. Therefore, the synchronization process involves adjusting the generator’s voltage until it aligns perfectly with the grid’s voltage.The synchronization of voltage is not only crucial for generators but also for various components within the electrical network. For instance, transformers and circuit breakers must also adhere to the principles of synchronizing voltage to function correctly. If these components do not synchronize properly, it could lead to overloads or faults that might damage the entire power system.Moreover, modern technology has made it easier to achieve proper synchronizing voltage. Advanced control systems and automation have been developed to monitor and adjust the voltages in real-time. These systems can detect discrepancies and automatically make adjustments to ensure that all components of the electrical network are synchronized. This technological advancement significantly enhances the reliability and efficiency of power systems, reducing the risk of outages and improving overall performance.In conclusion, understanding the concept of synchronizing voltage is essential for anyone involved in electrical engineering or power system management. It is a fundamental principle that ensures the stability and reliability of electrical networks. By ensuring that all components operate at the same voltage, frequency, and phase angle, we can prevent disruptions and maintain a continuous power supply. As technology continues to evolve, the methods for achieving synchronizing voltage will likely become even more sophisticated, leading to safer and more efficient power systems in the future.

在电气工程领域，确保一个稳定和高效的电力系统的关键方面之一是“synchronizing voltage”的概念。这个术语指的是在将两个或多个电气系统或发电机并联连接时必须匹配的电压水平。“synchronizing voltage”的重要性不容小觑，因为它在维护电力供应的完整性和可靠性方面发挥着至关重要的作用。当两个发电机并网时，它们必须在相同的电压、频率和相位角下运行，以避免可能导致系统故障或停电的扰动。为了进一步理解“synchronizing voltage”，我们可以考虑发电机的同步过程。当一台新发电机被添加到现有电网中时，工程师必须确保其输出电压与电网的电压相匹配。如果存在差异，可能会导致重大问题，如电击、设备的机械应力甚至灾难性的故障。因此，同步过程涉及调整发电机的电压，直到它与电网的电压完全对齐。电压的同步不仅对发电机至关重要，而且对电网络中的各种组件也同样重要。例如，变压器和断路器也必须遵循“synchronizing voltage”的原则才能正常工作。如果这些组件未能正确同步，可能导致过载或故障，从而损坏整个电力系统。此外，现代技术使得实现适当的“synchronizing voltage”变得更加容易。先进的控制系统和自动化技术已经开发出来，用于实时监测和调整电压。这些系统能够检测差异并自动进行调整，以确保电力网络的所有组件都处于同步状态。这一技术进步显著提高了电力系统的可靠性和效率，降低了停电的风险，提高了整体性能。总之，理解“synchronizing voltage”的概念对于任何参与电气工程或电力系统管理的人来说都是至关重要的。这是确保电气网络稳定性和可靠性的基本原则。通过确保所有组件在相同的电压、频率和相位角下运行，我们可以防止干扰并维持持续的电力供应。随着技术的不断发展，实现“synchronizing voltage”的方法可能会变得更加复杂，从而为未来更安全、更高效的电力系统铺平道路。