sending end voltage

简明释义

发送端电压

英英释义

例句

1.The engineer measured the sending end voltage to ensure it was within acceptable limits.

工程师测量了发送端电压以确保其在可接受的范围内。

2.The stability of the power system relies heavily on the sending end voltage being maintained.

电力系统的稳定性在很大程度上依赖于发送端电压的维持。

3.To improve efficiency, we need to boost the sending end voltage before transmission.

为了提高效率，我们需要在传输之前提升发送端电压。

4.In the simulation, the sending end voltage was set to 110 kV.

在模拟中，发送端电压被设置为110千伏。

5.A decrease in the sending end voltage can indicate a problem in the transmission line.

在传输线路中，发送端电压的下降可能表明存在问题。

作文

In the field of electrical engineering, understanding the concept of sending end voltage is crucial for the design and operation of power transmission systems. The term sending end voltage refers to the voltage at the source end of a transmission line, where electricity is generated and fed into the grid. This voltage is essential as it determines how effectively power can be transmitted over long distances to various consumers. The importance of sending end voltage can be illustrated through its relationship with other parameters in a power system. When electricity is generated at a power plant, it is typically transformed to a higher voltage level to minimize losses during transmission. The sending end voltage must be carefully regulated to ensure that it matches the required voltage levels at the receiving end. If the sending end voltage is too low, it may lead to insufficient power supply at the receiving end, while a voltage that is too high can cause equipment damage and safety hazards.Moreover, the sending end voltage plays a significant role in the stability of the power system. Voltage fluctuations can occur due to changes in load demand or faults within the transmission line. Engineers must monitor the sending end voltage continuously to maintain system reliability. Advanced control systems are often implemented to adjust the sending end voltage dynamically, ensuring that it remains within acceptable limits under varying operating conditions.Another critical aspect of sending end voltage is its effect on the efficiency of power transmission. The efficiency of a transmission line is defined as the ratio of the power delivered to the load to the power generated at the sending end. A higher sending end voltage can lead to lower current flow for the same power level, which in turn reduces resistive losses in the transmission line. Therefore, optimizing the sending end voltage is vital for enhancing the overall efficiency of the power delivery system.In conclusion, the concept of sending end voltage is fundamental in the realm of electrical engineering, particularly in power transmission. It influences not only the performance and reliability of the electrical grid but also the efficiency of energy delivery. Understanding how to manage and optimize sending end voltage is essential for engineers and technicians working in this field. As the demand for electricity continues to rise, mastering the principles of sending end voltage will be increasingly important to ensure a stable and efficient power supply for all users.

在电气工程领域，理解“sending end voltage”的概念对于电力传输系统的设计和操作至关重要。术语“sending end voltage”指的是在输电线的源端，即电力生成并送入电网的电压。这一电压是至关重要的，因为它决定了电力能否有效地在长距离内传输到各个消费者。“sending end voltage”的重要性可以通过其与电力系统中其他参数的关系来说明。当电力在发电厂生成时，通常会将其转换为更高的电压水平，以减少传输过程中的损耗。“sending end voltage”必须得到精确调节，以确保其与接收端所需的电压水平相匹配。如果“sending end voltage”过低，可能导致接收端的供电不足，而电压过高则可能造成设备损坏和安全隐患。此外，“sending end voltage”在电力系统稳定性方面也起着重要作用。由于负载需求的变化或输电线路中的故障，电压波动可能会发生。工程师必须持续监测“sending end voltage”，以维持系统的可靠性。通常会实施先进的控制系统，以动态调整“sending end voltage”，确保其在不同操作条件下保持在可接受的范围内。“sending end voltage”的另一个关键方面是其对电力传输效率的影响。输电线路的效率定义为送到负载的功率与在发送端生成的功率之比。对于相同的功率水平，更高的“sending end voltage”可以导致较低的电流流动，从而减少输电线路中的电阻损耗。因此，优化“sending end voltage”对提高电力输送系统的整体效率至关重要。总之，“sending end voltage”的概念在电气工程，特别是在电力传输中是基础性的。它不仅影响电网的性能和可靠性，还影响能量的传递效率。理解如何管理和优化“sending end voltage”对于在这一领域工作的工程师和技术人员来说是必不可少的。随着对电力需求的不断上升，掌握“sending end voltage”的原理将变得愈加重要，以确保为所有用户提供稳定和高效的电力供应。