heat storage

简明释义

蓄热

英英释义

例句

1.Geothermal systems rely on heat storage 热能储存 to maintain a stable temperature.

地热系统依赖于热能储存来维持稳定的温度。

2.Many modern buildings incorporate heat storage 热能储存 solutions to reduce energy costs.

许多现代建筑采用热能储存解决方案以降低能源成本。

3.The new solar panels are designed for better heat storage 热能储存 efficiency.

新型太阳能电池板旨在提高更好的热能储存效率。

4.The heat storage 热能储存 tank can hold hot water for several hours.

热能储存水箱可以储存热水几个小时。

5.In winter, the heat storage 热能储存 system helps keep our home warm.

在冬天，热能储存系统帮助保持我们的家温暖。

作文

In recent years, the concept of heat storage (热储存) has gained significant attention in the field of energy management and sustainability. As the world grapples with the challenges of climate change and the need for renewable energy sources, understanding how to effectively store heat becomes crucial. Heat storage refers to the process of capturing and retaining thermal energy for later use, which can greatly enhance the efficiency of energy systems.One of the most common methods of heat storage (热储存) is through the use of materials that can absorb and release heat. These materials, known as thermal mass, can include water, concrete, and various phase change materials. For instance, water has a high specific heat capacity, meaning it can store a large amount of thermal energy without a significant change in temperature. This property makes water an excellent medium for heat storage (热储存), especially in solar thermal applications.Solar energy is one of the most promising renewable energy sources, but its intermittent nature poses challenges for consistent energy supply. By integrating heat storage (热储存) systems into solar power plants, excess heat generated during sunny periods can be stored and utilized during cloudy days or at night. This not only maximizes the efficiency of solar energy but also provides a reliable energy source for consumers.Another innovative approach to heat storage (热储存) is the use of underground thermal energy storage systems. These systems involve burying insulated containers filled with materials such as gravel or water underground, where they can absorb and retain heat from the surrounding environment. During colder months, the stored heat can be extracted and used for heating buildings, reducing the reliance on fossil fuels and lowering greenhouse gas emissions.The economic benefits of heat storage (热储存) are also noteworthy. By enabling energy users to shift their consumption patterns, heat storage (热储存) can help balance supply and demand, leading to lower energy costs. For example, industrial facilities can take advantage of off-peak electricity rates by using heat storage (热储存) systems to generate steam during low-demand hours and then using that steam during peak hours when electricity prices are higher.Moreover, heat storage (热储存) technologies can play a vital role in enhancing energy resilience. In times of energy shortages or crises, having a reliable source of stored heat can ensure that communities have access to necessary heating and hot water. This is particularly important in regions prone to extreme weather conditions, where maintaining a stable indoor temperature can be life-saving.In conclusion, the significance of heat storage (热储存) cannot be overstated in today's context of energy transition and sustainability. As we continue to innovate and improve heat storage (热储存) technologies, we pave the way for a more efficient, resilient, and environmentally-friendly energy future. The integration of heat storage (热储存) solutions into our energy systems will not only help mitigate climate change but also provide economic advantages and enhance energy security for communities around the globe.

近年来，热储存的概念在能源管理和可持续性领域引起了显著关注。随着世界面临气候变化的挑战以及对可再生能源的需求，理解如何有效地储存热量变得至关重要。热储存是指捕获和保留热能以供后续使用的过程，这可以大大提高能源系统的效率。最常见的热储存方法是通过使用能够吸收和释放热量的材料。这些材料被称为热质量，可以包括水、混凝土和各种相变材料。例如，水具有较高的比热容，这意味着它可以在温度变化不大的情况下储存大量的热能。这一特性使水成为太阳能热应用中优秀的热储存介质。太阳能是最有前景的可再生能源之一，但其间歇性特性给稳定的能源供应带来了挑战。通过将热储存系统集成到太阳能发电厂中，可以在阳光明媚的时期储存多余的热量，并在阴天或夜间使用。这不仅最大化了太阳能的效率，还为消费者提供了可靠的能源来源。另一种创新的热储存方法是地下热能储存系统。这些系统涉及将填充有砾石或水的绝缘容器埋入地下，在那里它们可以吸收并保留周围环境的热量。在寒冷的月份，储存的热量可以被提取并用于加热建筑物，从而减少对化石燃料的依赖，降低温室气体排放。热储存的经济效益也值得注意。通过使能源用户能够调整消费模式，热储存可以帮助平衡供需，从而降低能源成本。例如，工业设施可以利用低峰电价，通过在低需求时段使用热储存系统产生蒸汽，然后在高峰时段使用这些蒸汽，从而降低电力价格。此外，热储存技术在增强能源韧性方面也发挥着至关重要的作用。在能源短缺或危机时期，拥有可靠的储存热源可以确保社区获得必要的供暖和热水。这在极端天气条件频繁发生的地区尤为重要，在这些地区，保持稳定的室内温度可能是救命的。总之，在当今能源转型和可持续发展的背景下，热储存的重要性不容小觑。随着我们不断创新和改进热储存技术，我们为更高效、更具韧性和更环保的能源未来铺平了道路。将热储存解决方案整合到我们的能源系统中，不仅有助于减缓气候变化，还有助于提供经济优势并增强全球社区的能源安全。