ultrahigh-tension power transmission lines

简明释义

高压输电线路

英英释义

例句

1.Environmental studies are being conducted to assess the impact of ultrahigh-tension power transmission lines 超高压输电线路 on local wildlife.

正在进行环境研究，以评估超高压输电线路 ultrahigh-tension power transmission lines 对当地野生动物的影响。

2.Many countries are investing in ultrahigh-tension power transmission lines 超高压输电线路 to improve their energy infrastructure and reduce losses.

许多国家正在投资超高压输电线路 ultrahigh-tension power transmission lines 以改善其能源基础设施并减少损失。

3.Local communities often express concerns about the aesthetic impact of ultrahigh-tension power transmission lines 超高压输电线路 in their neighborhoods.

当地社区通常对超高压输电线路 ultrahigh-tension power transmission lines 在其社区中的美学影响表示担忧。

4.The design of ultrahigh-tension power transmission lines 超高压输电线路 requires advanced engineering techniques to ensure safety and efficiency.

设计超高压输电线路 ultrahigh-tension power transmission lines 需要先进的工程技术，以确保安全和效率。

5.The construction of new ultrahigh-tension power transmission lines 超高压输电线路 is essential to meet the growing energy demands of urban areas.

新建的超高压输电线路 ultrahigh-tension power transmission lines 对满足城市地区日益增长的能源需求至关重要。

作文

In today's world, the demand for electricity is ever-increasing. As urban areas expand and technology advances, the need for efficient power distribution becomes paramount. One of the most significant advancements in this field is the development of ultrahigh-tension power transmission lines, which are designed to transport electricity over long distances with minimal losses. These lines operate at voltages exceeding 800 kilovolts (kV), making them a crucial component of modern power grids. The primary advantage of ultrahigh-tension power transmission lines lies in their ability to reduce energy loss during transmission. Traditional power lines typically operate at lower voltages, which can lead to significant energy losses due to resistance in the conductors. However, by increasing the voltage, the current flowing through the lines decreases, thereby minimizing these losses. This efficiency is particularly important as countries strive to meet growing energy demands while also addressing environmental concerns. Moreover, ultrahigh-tension power transmission lines facilitate the integration of renewable energy sources into the power grid. As more wind farms and solar plants are developed, it becomes essential to transport the generated electricity from remote locations to urban centers where it is needed. The high capacity of these transmission lines allows for the effective movement of large amounts of electricity, making it possible to harness renewable resources that may not be located near population centers. In addition to their technical advantages, ultrahigh-tension power transmission lines also play a vital role in enhancing the reliability of power supply. By connecting different regions of the power grid, these lines help to stabilize the system and provide backup during outages or peak demand periods. This interconnectedness ensures that electricity can be rerouted from areas with excess supply to those experiencing shortages, thus maintaining a steady flow of power. However, the implementation of ultrahigh-tension power transmission lines is not without challenges. The construction of these lines requires significant investment and careful planning, as they often traverse vast and varied landscapes. Environmental concerns, such as the impact on wildlife and local ecosystems, must be taken into account. Additionally, community opposition can arise due to concerns about property values and health effects associated with living near high-voltage lines. Addressing these issues requires collaboration between governments, utility companies, and local communities to ensure that the benefits of these transmission lines are realized while minimizing negative impacts. In conclusion, ultrahigh-tension power transmission lines represent a critical innovation in the field of electricity distribution. Their ability to efficiently transport large amounts of electricity over long distances makes them indispensable in meeting the energy needs of our modern society. As we continue to transition towards a more sustainable energy future, the role of these advanced transmission lines will only become more significant. By investing in and expanding our infrastructure for ultrahigh-tension power transmission lines, we can ensure a reliable, efficient, and environmentally friendly power supply for generations to come.

在当今世界，电力的需求日益增加。随着城市地区的扩展和技术的进步，对高效电力分配的需求变得至关重要。在这一领域，最重要的进展之一是开发了超高压输电线路，这些线路旨在以最小的损耗将电力长距离传输。这些线路的工作电压超过800千伏（kV），使其成为现代电网的重要组成部分。

超高压输电线路的主要优势在于其减少传输过程中的能量损失的能力。传统的电力线路通常在较低电压下运行，这可能导致由于导体的电阻而产生显著的能量损失。然而，通过提高电压，流经线路的电流减少，从而最小化这些损失。这种效率在各国努力满足不断增长的能源需求，同时应对环境问题时尤为重要。

此外，超高压输电线路还有助于将可再生能源源融入电网。随着越来越多的风电场和太阳能发电厂的发展，将生成的电力从偏远地区运输到城市中心变得至关重要。这些输电线路的高容量允许有效移动大量电力，使得能够利用可能不位于人口中心附近的可再生资源。

除了技术优势，超高压输电线路在增强电力供应的可靠性方面也发挥着重要作用。通过连接电网的不同区域，这些线路有助于稳定系统，并在停电或高峰需求期间提供备用。这种互联性确保电力可以从过剩供应的地区重新分配到经历短缺的地区，从而保持电力的稳定流动。

然而，实施超高压输电线路并非没有挑战。这些线路的建设需要大量投资和周密规划，因为它们通常穿越广阔而多样的地形。环境问题，如对野生动物和当地生态系统的影响，必须考虑在内。此外，由于担心房产价值和与高压线路附近居住相关的健康影响，社区反对也可能出现。解决这些问题需要政府、公用事业公司和地方社区之间的合作，以确保实现这些输电线路的好处，同时尽量减少负面影响。

总之，超高压输电线路代表了电力分配领域的一项关键创新。它们能够高效地将大量电力长距离传输，使其在满足现代社会能源需求方面不可或缺。随着我们继续向更可持续的能源未来过渡，这些先进输电线路的作用只会变得更加重要。通过投资和扩展我们的超高压输电线路基础设施，我们可以确保为后代提供可靠、高效和环保的电力供应。