district heating

简明释义

区域供热

英英释义

例句

1.Many cities rely on district heating to provide efficient warmth during winter months.

许多城市依赖于集中供热在冬季提供高效的温暖。

2.The local government is investing in district heating systems to reduce carbon emissions.

当地政府正在投资于集中供热系统以减少碳排放。

3.The new district heating plant will serve over 10,000 homes in the area.

新的集中供热厂将为该地区超过10,000个家庭提供服务。

4.Upgrading the district heating network can significantly improve energy efficiency.

升级集中供热网络可以显著提高能源效率。

5.Residents connected to district heating enjoy lower energy bills compared to those using individual heating.

与集中供热系统连接的居民享受比使用独立供热的居民更低的能源费用。

作文

District heating, or 区域供热, is a system for distributing heat generated in a centralized location for residential and commercial heating requirements. This method of heating has gained popularity due to its efficiency and environmental benefits. In many cities around the world, 区域供热 systems are being implemented to reduce reliance on fossil fuels and to utilize renewable energy sources more effectively.The concept of 区域供热 involves the production of hot water or steam at a central plant, which is then distributed through insulated pipes to various buildings in the area. This system not only provides heat but can also supply hot water for domestic use. The centralized nature of 区域供热 allows for better control over emissions and energy consumption compared to individual heating systems.One of the primary advantages of 区域供热 is its potential for increased energy efficiency. By generating heat at a larger scale, it is possible to use heat recovery technologies that capture waste heat from industrial processes or power generation. This means that less energy is wasted, and the overall carbon footprint of heating can be significantly reduced. For instance, many modern 区域供热 systems incorporate combined heat and power (CHP) plants, which simultaneously produce electricity and useful heat from the same energy source.Moreover, 区域供热 can facilitate the integration of renewable energy sources. Solar thermal panels, biomass, and geothermal energy can all be utilized in a district heating system. In places where these resources are abundant, 区域供热 can provide a sustainable alternative to traditional heating methods. As cities strive to meet climate goals, the adoption of 区域供热 becomes increasingly critical.In addition to environmental benefits, 区域供热 offers economic advantages. It can lead to lower heating costs for consumers since the centralized system can achieve economies of scale. Furthermore, maintenance and operational costs are often lower than those associated with individual heating systems. This can be particularly beneficial in urban areas where space is limited and infrastructure can be expensive to maintain.However, implementing 区域供热 systems is not without challenges. The initial investment for infrastructure development can be significant, and it requires careful planning and coordination among various stakeholders, including government entities, utility companies, and local communities. Additionally, public acceptance is crucial, as residents need to understand the benefits and be willing to transition from their existing heating systems to a district heating model.In conclusion, 区域供热 represents a promising solution for modern heating needs. Its ability to enhance energy efficiency, reduce emissions, and integrate renewable resources makes it an attractive option for cities aiming to combat climate change. With proper investment and community support, 区域供热 could play a vital role in creating sustainable urban environments in the future.

区域供热是一种集中地点生成热量并分配给住宅和商业供暖需求的系统。这种供暖方法因其效率和环境效益而越来越受欢迎。在世界许多城市，正在实施区域供热系统，以减少对化石燃料的依赖，并更有效地利用可再生能源。区域供热的概念涉及在中央工厂生产热水或蒸汽，然后通过绝缘管道分配给该地区的各种建筑。这个系统不仅提供热量，还可以为家庭使用提供热水。区域供热的集中性质允许比单独的供暖系统更好地控制排放和能耗。区域供热的主要优点之一是提高能源效率的潜力。通过大规模产生热量，可以使用热回收技术捕获工业过程或发电中产生的废热。这意味着浪费的能源更少，供暖的整体碳足迹可以显著降低。例如，许多现代区域供热系统结合了热电联产（CHP）工厂，同时从同一能源源生产电力和有用热量。此外，区域供热可以促进可再生能源的整合。太阳能热能板、生物质和地热能都可以在区域供热系统中利用。在这些资源丰富的地方，区域供热可以提供传统供暖方法的可持续替代方案。随着城市努力实现气候目标，采用区域供热变得越来越关键。除了环境效益，区域供热还提供经济优势。由于集中系统能够实现规模经济，它可以降低消费者的供暖成本。此外，维护和运营成本通常低于与单独供暖系统相关的成本。这在空间有限且基础设施维护成本高昂的城市地区尤其有利。然而，实施区域供热系统并非没有挑战。基础设施开发的初始投资可能很大，并且需要政府实体、公用事业公司和地方社区等各方之间的仔细规划和协调。此外，公众的接受度至关重要，因为居民需要了解好处，并愿意从现有供暖系统过渡到区域供热模式。总之，区域供热代表了现代供暖需求的一个有希望的解决方案。它提高能源效率、减少排放和整合可再生资源的能力，使其成为城市应对气候变化的有吸引力的选择。通过适当的投资和社区支持，区域供热在未来创建可持续城市环境中可能发挥至关重要的作用。