rate of electricity loss from transmission line

简明释义

线路损失率

英英释义

例句

1.Monitoring the rate of electricity loss from transmission line helps identify areas that need maintenance.

监测输电线路的电力损失率有助于识别需要维护的区域。

2.Reducing the rate of electricity loss from transmission line can significantly lower operational costs for utility companies.

降低输电线路的电力损失率可以显著降低公用事业公司的运营成本。

3.The government is investing in technology to decrease the rate of electricity loss from transmission line across the country.

政府正在投资技术，以减少全国范围内的输电线路的电力损失率。

4.The engineers calculated the rate of electricity loss from transmission line to optimize the power distribution system.

工程师计算了输电线路的电力损失率以优化电力分配系统。

5.A high rate of electricity loss from transmission line indicates inefficiencies in the electrical grid.

高输电线路的电力损失率表明电网存在低效率问题。

作文

The efficiency of power transmission is a critical aspect of modern electrical systems. One of the key factors that impacts this efficiency is the rate of electricity loss from transmission line, which refers to the amount of electrical energy that is lost as heat during the process of transmitting electricity over distances. This loss occurs due to the inherent resistance in the conductors used in the transmission lines. As electricity flows through these conductors, some of the energy is converted into heat, leading to inefficiencies in the system. Understanding the rate of electricity loss from transmission line is essential for engineers and energy providers to optimize their infrastructure and reduce waste.In practical terms, the rate of electricity loss from transmission line can be influenced by several factors, including the material of the conductors, the distance the electricity travels, and the amount of current flowing through the wires. For instance, copper and aluminum are commonly used materials for transmission lines, with copper being more conductive but also more expensive. The choice of material can significantly affect the rate of electricity loss from transmission line. Moreover, the longer the distance that electricity must travel, the higher the potential for loss. This is particularly relevant in large countries or regions where power plants may be located far from the areas they serve. High-voltage transmission lines are often used to mitigate this issue, as increasing the voltage allows for a reduction in current for the same power level, thereby decreasing the resistive losses. This principle highlights the importance of understanding the rate of electricity loss from transmission line when designing and implementing effective power distribution networks.Another important aspect is the load on the transmission line. When demand for electricity is high, more current flows through the lines, which can increase the rate of electricity loss from transmission line. Therefore, managing the load and ensuring that transmission lines are not overloaded is crucial for minimizing losses. Smart grid technologies are increasingly being employed to monitor and manage electricity flow in real time, helping to optimize performance and reduce the rate of electricity loss from transmission line.In conclusion, the rate of electricity loss from transmission line is a significant factor in the efficiency of electrical power transmission. By understanding and addressing the various factors that contribute to this loss, engineers and energy providers can enhance the reliability of power systems and reduce energy waste. This not only leads to cost savings but also contributes to a more sustainable energy future, as reducing losses means that less energy needs to be generated, ultimately lowering greenhouse gas emissions and conserving resources. Thus, improving the rate of electricity loss from transmission line is not just a technical challenge; it is a vital step towards a more efficient and environmentally friendly energy landscape.

电力传输的效率是现代电气系统中的一个关键方面。影响这种效率的一个关键因素是输电线路的电力损失率，即在电力通过输电线路传输过程中，作为热量损失的电能量。这种损失是由于输电线路中导体的固有电阻造成的。当电流通过这些导体时，一部分能量转化为热量，导致系统效率降低。理解输电线路的电力损失率对于工程师和能源供应商优化基础设施和减少浪费至关重要。在实际应用中，输电线路的电力损失率受多种因素的影响，包括导体材料、电力传输的距离以及流经电线的电流量。例如，铜和铝是常用的输电线路材料，铜的导电性更好但成本也更高。材料的选择可以显著影响输电线路的电力损失率。此外，电力必须传输的距离越长，损失的潜力就越大。这在大国或地区尤其相关，因为发电厂可能位于远离其服务区域的位置。高压输电线路通常用于缓解这一问题，因为提高电压可以在相同功率水平下减少电流，从而降低电阻损失。这个原理强调了在设计和实施有效的电力分配网络时，理解输电线路的电力损失率的重要性。另一个重要方面是输电线路上的负载。当电力需求高时，更多电流流过线路，这可能会增加输电线路的电力损失率。因此，管理负载并确保输电线路不超负荷运作对于最小化损失至关重要。智能电网技术越来越多地被应用于实时监控和管理电力流动，帮助优化性能并减少输电线路的电力损失率。总之，输电线路的电力损失率是电力传输效率的重要因素。通过理解和解决导致这种损失的各种因素，工程师和能源供应商可以提高电力系统的可靠性，减少能源浪费。这不仅带来成本节约，还促进了更可持续的能源未来，因为减少损失意味着需要产生更少的能量，最终降低温室气体排放，节约资源。因此，改善输电线路的电力损失率不仅是一个技术挑战；它是朝着更高效、更环保的能源格局迈出的重要一步。