low-tension network

简明释义

低压电力网

英英释义

例句

1.The low-tension network is crucial for connecting small businesses to the main power grid.

该低压网络对于将小企业连接到主电网至关重要。

2.The city is planning to upgrade its low-tension network to improve electricity distribution efficiency.

该市计划升级其低压网络以提高电力分配效率。

3.In rural areas, a low-tension network can provide essential power to homes without the need for high-voltage lines.

在农村地区，低压网络可以为家庭提供基本电力，而无需高压线路。

4.A reliable low-tension network ensures that residential areas receive consistent electricity supply.

可靠的低压网络确保住宅区获得稳定的电力供应。

5.Engineers are assessing the low-tension network to identify any potential weaknesses.

工程师正在评估低压网络以识别任何潜在的弱点。

作文

In today's world, the concept of a low-tension network is becoming increasingly relevant, especially in the context of urban development and sustainable energy solutions. A low-tension network refers to a system that operates at lower voltage levels, typically used for distributing electricity in residential areas. This type of network is essential for ensuring that power is delivered safely and efficiently to homes without the risks associated with high-voltage systems. The advantages of a low-tension network are manifold. Firstly, it enhances safety for both consumers and maintenance personnel. High-voltage systems can pose significant hazards, including electrical shocks and fires. By utilizing a low-tension network, these risks are substantially minimized. Additionally, the infrastructure required for a low-tension network is generally less complex and costly compared to high-voltage alternatives, making it a more feasible option for many communities, particularly in developing regions.Moreover, as cities grow and the demand for electricity increases, the integration of low-tension networks becomes crucial. They allow for better management of electricity distribution, enabling utilities to respond quickly to fluctuations in demand. This adaptability is vital in an era where renewable energy sources, such as solar and wind, are becoming more prevalent. These sources often require localized distribution systems, which are effectively supported by low-tension networks. Furthermore, the environmental impact of a low-tension network cannot be overlooked. By promoting the use of distributed generation, such as rooftop solar panels, these networks help reduce transmission losses that occur in high-voltage systems. This efficiency not only contributes to lower energy costs for consumers but also supports broader goals of reducing greenhouse gas emissions and combating climate change. In addition to their practical benefits, low-tension networks also play a role in fostering community engagement. As neighborhoods become more involved in energy production and consumption, they can develop a sense of ownership over their local energy resources. This shift towards decentralized energy solutions encourages collaboration among residents and promotes awareness about energy conservation practices. However, transitioning to a low-tension network is not without its challenges. Existing infrastructure may need significant upgrades to accommodate these systems, which can require substantial investment. Additionally, there may be regulatory hurdles to navigate, as energy policies vary widely across different regions. Nevertheless, the long-term benefits of implementing low-tension networks make them a worthwhile pursuit. In conclusion, the implementation of low-tension networks presents a promising avenue for improving energy distribution in urban environments. With their focus on safety, cost-effectiveness, and sustainability, these networks are well-positioned to meet the demands of modern society. As we continue to explore innovative solutions for energy challenges, the low-tension network stands out as a vital component of a resilient and sustainable energy future.

在当今世界，‘低压网络’的概念变得越来越重要，尤其是在城市发展和可持续能源解决方案的背景下。‘低压网络’指的是在较低电压水平下运行的系统，通常用于向住宅区分配电力。这种类型的网络对于确保电力安全高效地送达家庭至关重要，而不会带来与高压系统相关的风险。‘低压网络’的优势是多方面的。首先，它增强了消费者和维护人员的安全性。高压系统可能带来重大危险，包括电击和火灾。通过利用‘低压网络’，这些风险得到了显著降低。此外，与高压替代方案相比，‘低压网络’所需的基础设施通常更简单且成本更低，使其成为许多社区，特别是发展中地区，更可行的选择。此外，随着城市的发展和电力需求的增加，整合‘低压网络’变得至关重要。它们允许更好地管理电力分配，使公用事业能够快速响应需求波动。在可再生能源（如太阳能和风能）变得越来越普遍的时代，这种适应性至关重要。这些能源通常需要本地化的分配系统，而这些系统有效地得到‘低压网络’的支持。此外，‘低压网络’对环境的影响也不容忽视。通过促进分布式发电，例如屋顶太阳能电池板，这些网络有助于减少高压系统中发生的传输损失。这种效率不仅有助于降低消费者的能源成本，还支持更广泛的减少温室气体排放和应对气候变化的目标。除了实际利益外，‘低压网络’还在促进社区参与方面发挥作用。随着社区更加参与能源的生产和消费，他们可以对当地能源资源产生一种归属感。这种向去中心化能源解决方案的转变鼓励居民之间的合作，并促进对节能实践的意识。然而，过渡到‘低压网络’并非没有挑战。现有基础设施可能需要进行重大升级以适应这些系统，这可能需要大量投资。此外，可能还会面临监管障碍，因为不同地区的能源政策差异很大。尽管如此，实施‘低压网络’的长期好处使其成为值得追求的目标。总之，实施‘低压网络’为改善城市环境中的能源分配提供了一条有前景的途径。通过关注安全、成本效益和可持续性，这些网络能够很好地满足现代社会的需求。随着我们继续探索应对能源挑战的创新解决方案，‘低压网络’作为一个韧性和可持续能源未来的重要组成部分脱颖而出。