earthed-neutral distribution system

简明释义

中点接地配电系统

英英释义

例句

1.Engineers recommend using an earthed-neutral distribution system 接地中性配电系统 for industrial applications to ensure equipment protection.

工程师建议在工业应用中使用<站>接地中性配电系统以确保设备保护。

2.The earthed-neutral distribution system 接地中性配电系统 is essential for maintaining voltage stability in electrical grids.

<站>接地中性配电系统对于维持电网中的电压稳定性至关重要。

3.The power company upgraded its infrastructure to implement an earthed-neutral distribution system 接地中性配电系统 for better safety.

电力公司升级了其基础设施，以实施<站>接地中性配电系统以提高安全性。

4.An earthed-neutral distribution system 接地中性配电系统 minimizes the risk of electric shock in residential buildings.

在住宅建筑中，<站>接地中性配电系统最小化了触电的风险。

5.In urban areas, the use of an earthed-neutral distribution system 接地中性配电系统 helps to reduce electrical hazards.

在城市地区，使用<站>接地中性配电系统有助于减少电气危险。

作文

The concept of an earthed-neutral distribution system is crucial in the field of electrical engineering and power distribution. This system is designed to enhance safety and reliability in electrical networks, particularly in residential and industrial settings. An earthed-neutral distribution system refers to a method where the neutral point of a power supply is connected to the ground, providing a reference point for the electrical system. This connection helps to prevent electric shocks and reduces the risk of equipment damage due to fault currents.In many regions, the implementation of an earthed-neutral distribution system is mandated by electrical codes and standards. These regulations are in place to ensure that electrical installations are safe for users and can withstand various fault conditions. The grounding of the neutral point helps to stabilize the voltage levels within the system, which is particularly important during transient events such as lightning strikes or sudden changes in load.One of the primary advantages of an earthed-neutral distribution system is its ability to provide a low-resistance path for fault currents. When a fault occurs, such as a short circuit, the grounding system allows the fault current to flow safely to the earth, thereby minimizing the risk of electric shock to individuals and preventing potential damage to electrical devices. This characteristic is especially important in environments where sensitive electronic equipment is used, as it helps to maintain operational integrity and prolong the lifespan of these devices.Moreover, an earthed-neutral distribution system contributes to improved system performance by reducing electromagnetic interference (EMI). EMI can disrupt the operation of electronic devices and communication systems, leading to data loss or system failures. By grounding the neutral point, the system can effectively minimize the effects of EMI, ensuring that devices operate smoothly and efficiently.The design of an earthed-neutral distribution system also plays a significant role in the overall safety of electrical installations. Engineers must carefully consider factors such as soil resistivity, grounding electrode systems, and the potential for ground faults when designing these systems. Proper installation and maintenance are essential to ensure that the grounding system remains effective over time. Regular inspections and tests should be conducted to verify the integrity of the grounding connections and to identify any potential issues that may arise.In conclusion, understanding the principles behind an earthed-neutral distribution system is vital for anyone involved in the field of electrical engineering or power distribution. This system not only enhances safety and reliability but also improves the performance of electrical installations. As technology continues to advance, the importance of robust grounding systems will only increase, making it imperative for engineers and technicians to stay informed about best practices and emerging trends in this area. By prioritizing the implementation of effective earthed-neutral distribution systems, we can help ensure a safer and more reliable electrical infrastructure for future generations.

“接地中性配电系统”的概念在电气工程和电力分配领域至关重要。该系统旨在增强住宅和工业环境中电气网络的安全性和可靠性。“接地中性配电系统”指的是一种将电源的中性点连接到地面的方式，为电气系统提供参考点。这种连接有助于防止触电，并减少由于故障电流造成的设备损坏风险。在许多地区，实施“接地中性配电系统”是电气规范和标准所要求的。这些规定旨在确保电气安装对用户安全，并能够承受各种故障条件。中性点的接地有助于稳定系统内的电压水平，这在雷击或负载突然变化等瞬态事件期间尤为重要。“接地中性配电系统”的主要优势之一是其提供了故障电流的低阻抗路径。当发生故障时，例如短路，接地系统允许故障电流安全地流向大地，从而最大限度地减少对个人的触电风险，并防止对电气设备的潜在损坏。这一特性在使用敏感电子设备的环境中尤其重要，因为它有助于维持操作完整性并延长这些设备的使用寿命。此外，“接地中性配电系统”通过减少电磁干扰（EMI）来改善系统性能。EMI可能会干扰电子设备和通信系统的操作，导致数据丢失或系统故障。通过接地中性点，系统可以有效地最小化EMI的影响，确保设备平稳高效地运行。“接地中性配电系统”的设计在电气安装的整体安全性中也发挥着重要作用。工程师必须仔细考虑土壤电阻率、接地电极系统以及接地故障的潜在风险等因素，以设计这些系统。正确的安装和维护对于确保接地系统随着时间的推移仍然有效至关重要。应该定期进行检查和测试，以验证接地连接的完整性，并识别可能出现的任何潜在问题。总之，理解“接地中性配电系统”背后的原理对于任何参与电气工程或电力分配领域的人来说都是至关重要的。该系统不仅增强了安全性和可靠性，还提高了电气安装的性能。随着技术的不断进步，强大接地系统的重要性只会增加，这使得工程师和技术人员必须随时了解最佳实践和新兴趋势。通过优先实施有效的“接地中性配电系统”，我们可以帮助确保未来几代人更安全、更可靠的电气基础设施。