automatic line phasing

简明释义

自动行同步

英英释义

例句

1.The new software update includes automatic line phasing to improve grid stability.

新的软件更新包括自动线路相位调整以提高电网稳定性。

2.With automatic line phasing, we can reduce the time spent on manual adjustments.

通过自动线路相位调整，我们可以减少手动调整所花费的时间。

3.The utility company invested in automatic line phasing for better load management.

公用事业公司投资于自动线路相位调整以实现更好的负载管理。

4.The engineers implemented automatic line phasing to enhance the system's efficiency.

工程师实施了自动线路相位调整以提高系统的效率。

5.Using automatic line phasing technology, the power distribution became more reliable.

利用自动线路相位调整技术，电力分配变得更加可靠。

作文

In the modern world of electrical engineering, efficiency and reliability are paramount. One of the key innovations that have emerged to enhance these qualities is automatic line phasing. This technology is particularly crucial in the field of power distribution, where maintaining the balance and synchronization of electrical lines can significantly impact the overall performance of the grid. 自动线路相位调整 是一种用于优化电力传输的技术，它通过自动检测和调整电流的相位来确保电网的稳定性和效率。 The primary function of automatic line phasing is to ensure that multiple electrical lines operate in harmony. When power is transmitted through several lines, it is essential that the phases of the current are aligned correctly. If they are not, it can lead to inefficiencies, increased losses, and even damage to equipment. By employing automatic line phasing, engineers can automate this process, reducing the need for manual adjustments and minimizing the risk of human error. One of the significant advantages of automatic line phasing is its ability to enhance system reliability. In traditional systems, any mismatch in phase alignment could result in outages or equipment failures. With the integration of automatic line phasing, such risks are significantly mitigated. The system continuously monitors the phase alignment and makes real-time adjustments as needed. This proactive approach not only improves the longevity of the equipment but also ensures a more reliable power supply to consumers. Moreover, automatic line phasing contributes to energy efficiency. When electrical lines are properly phased, power losses due to reactive power are minimized. This means that more of the generated power is effectively utilized, leading to lower operational costs for utility companies and ultimately benefiting consumers with reduced electricity bills. In an era where sustainability is a growing concern, technologies like automatic line phasing play a vital role in promoting energy conservation. The implementation of automatic line phasing has also been facilitated by advancements in technology. With the advent of smart grid technologies, the capability to monitor and control electrical systems remotely has become a reality. These smart systems utilize sensors and advanced algorithms to manage the complexities of power distribution, making automatic line phasing not just a possibility but a practical solution for modern electrical grids. In conclusion, automatic line phasing represents a significant leap forward in the field of electrical engineering. Its ability to enhance reliability, improve efficiency, and facilitate the integration of renewable energy sources makes it an indispensable tool in today’s power systems. As we continue to seek ways to optimize energy use and reduce environmental impact, technologies like automatic line phasing will undoubtedly play a crucial role in shaping the future of power distribution. By embracing such innovations, we can ensure a more stable and sustainable energy landscape for generations to come.

在现代电气工程领域，效率和可靠性至关重要。为了提高这些品质，出现了一项关键创新——自动线路相位调整。这种技术在电力分配领域尤为重要，因为保持电气线路的平衡和同步对电网的整体性能有着显著影响。自动线路相位调整 是一种用于优化电力传输的技术，它通过自动检测和调整电流的相位来确保电网的稳定性和效率。 自动线路相位调整 的主要功能是确保多条电气线路协调工作。当电力通过几条线路传输时，电流的相位必须正确对齐。如果不对齐，可能会导致效率低下、损耗增加，甚至设备损坏。通过采用 自动线路相位调整，工程师可以自动化这个过程，减少手动调整的需要，并最小化人为错误的风险。 自动线路相位调整 的一个显著优势在于其增强系统可靠性的能力。在传统系统中，任何相位对齐的不匹配都可能导致停电或设备故障。通过集成 自动线路相位调整，此类风险显著降低。该系统持续监控相位对齐，并根据需要进行实时调整。这种主动的方法不仅提高了设备的使用寿命，还确保了对消费者更可靠的电力供应。 此外，自动线路相位调整 还有助于提高能效。当电气线路相位正确时，由于无功功率造成的电力损失降到最低。这意味着更多的发电电力被有效利用，从而降低了公用事业公司的运营成本，并最终使消费者受益于减少的电费。在可持续性日益受到关注的时代，像 自动线路相位调整 这样的技术在促进能源节约方面发挥了至关重要的作用。 自动线路相位调整 的实施也得益于技术的进步。随着智能电网技术的出现，远程监控和控制电气系统的能力已成为现实。这些智能系统利用传感器和先进算法来管理电力分配的复杂性，使 自动线路相位调整 不仅成为可能，而且成为现代电网的实际解决方案。 总之，自动线路相位调整 代表了电气工程领域的重要飞跃。它增强可靠性、提高效率以及促进可再生能源源的整合，使其成为当今电力系统不可或缺的工具。在我们继续寻求优化能源使用和减少环境影响的方法时，像 自动线路相位调整 这样的技术无疑将在塑造未来电力分配中发挥关键作用。通过拥抱这些创新，我们可以确保为后代提供更稳定和可持续的能源格局。