load distribution line

简明释义

载荷分布曲线

英英释义

例句

1.Proper maintenance of the load distribution line 负载分配线路 can prevent electrical hazards.

对负载分配线路 负载分配线路的适当维护可以防止电气隐患。

2.The engineer explained how to properly install the load distribution line 负载分配线路 to ensure even power distribution.

工程师解释了如何正确安装负载分配线路 负载分配线路以确保电力均匀分配。

3.During the inspection, we found that the load distribution line 负载分配线路 needed reinforcement due to wear and tear.

在检查中，我们发现负载分配线路 负载分配线路由于磨损需要加固。

4.The technician replaced the faulty load distribution line 负载分配线路 to restore power to the entire facility.

技术人员更换了故障的负载分配线路 负载分配线路以恢复整个设施的电力。

5.In our new building, the load distribution line 负载分配线路 was designed to handle increased electrical demand.

在我们新建的建筑中，负载分配线路 负载分配线路的设计能够处理增加的电力需求。

作文

In the realm of electrical engineering, the term load distribution line refers to a vital component in power systems that facilitates the efficient distribution of electrical loads across various circuits. Understanding this concept is crucial for engineers and technicians who work with electrical networks, as it directly impacts the reliability and stability of power supply to consumers. The load distribution line serves as a conduit through which electrical energy is transmitted from substations to end-users, ensuring that power is evenly distributed to meet demand.The importance of a well-designed load distribution line cannot be overstated. It plays a key role in minimizing losses associated with electrical transmission. When electricity travels over long distances, some energy is inevitably lost due to resistance in the wires. A properly configured load distribution line can help mitigate these losses by optimizing the path that electricity takes, thereby enhancing the overall efficiency of the power system.Moreover, the load distribution line is critical for managing the load on the electrical grid. In any power system, demand can fluctuate significantly based on time of day, weather conditions, and other factors. By utilizing advanced monitoring and control technologies, operators can adjust the flow of electricity along the load distribution line to ensure that supply meets demand without overloading any particular segment of the network. This dynamic management is essential for preventing outages and maintaining service continuity.In addition to its technical functions, the load distribution line also has implications for safety. Overloaded lines can pose serious hazards, leading to equipment failures or even fires. Therefore, engineers must carefully calculate the maximum load that each load distribution line can handle and implement safety measures to protect both the infrastructure and the public. Regular maintenance and upgrades are also necessary to keep these lines in optimal condition and to accommodate changing energy demands.Furthermore, the integration of renewable energy sources into the power grid has added complexity to the design and operation of load distribution lines. With the increasing adoption of solar panels and wind turbines, traditional power distribution methods must evolve. Engineers are now tasked with developing smart grids that can dynamically respond to the variable nature of renewable energy generation. This requires innovative approaches to load distribution lines, enabling them to efficiently manage both conventional and renewable energy sources.In conclusion, the concept of the load distribution line is fundamental to the field of electrical engineering. Its role in distributing electrical loads, minimizing losses, managing grid stability, ensuring safety, and adapting to new energy sources makes it an essential area of focus for professionals in the industry. As technology continues to advance, the future of load distribution lines will likely involve even more sophisticated systems designed to enhance the efficiency and reliability of power distribution networks worldwide.

在电气工程领域，术语负载分配线路指的是电力系统中的一个重要组成部分，它促进了电能在各个电路之间的有效分配。理解这一概念对于从事电气网络工作的工程师和技术人员至关重要，因为它直接影响到电力供应的可靠性和稳定性。负载分配线路作为电力从变电站传输到最终用户的通道，确保电力均匀分配以满足需求。设计良好的负载分配线路的重要性不容小觑。它在减少与电力传输相关的损耗方面发挥着关键作用。当电力在长距离传输时，由于导线的电阻，部分能量不可避免地会损失。一个适当配置的负载分配线路可以通过优化电力传输路径来帮助减轻这些损失，从而提高电力系统的整体效率。此外，负载分配线路对于管理电网负载至关重要。在任何电力系统中，需求可能会因时间、天气等因素显著波动。通过利用先进的监控和控制技术，运营商可以调整电力沿负载分配线路的流动，以确保供给满足需求，而不会过载网络的任何特定部分。这种动态管理对于防止停电和维持服务连续性至关重要。除了其技术功能外，负载分配线路还涉及安全问题。过载线路可能会造成严重危害，导致设备故障甚至火灾。因此，工程师必须仔细计算每条负载分配线路能够承受的最大负载，并实施安全措施以保护基础设施和公众。定期维护和升级也是保持这些线路最佳状态并适应变化的能源需求所必需的。此外，可再生能源源的整合给负载分配线路的设计和运行增加了复杂性。随着太阳能电池板和风力涡轮机的日益普及，传统的电力分配方法必须发展。工程师现在的任务是开发智能电网，使其能够动态响应可再生能源发电的可变性。这需要对负载分配线路采取创新的方法，使其能够高效管理传统和可再生能源。总之，负载分配线路的概念是电气工程领域的基础。它在电力负载分配、减少损失、管理电网稳定性、确保安全以及适应新型能源方面的作用，使其成为该行业专业人士关注的重点领域。随着技术的不断进步，未来的负载分配线路可能会涉及更复杂的系统，旨在提高全球电力分配网络的效率和可靠性。