heat-absorbing surface

简明释义

吸热面

英英释义

例句

1.The solar panel is designed with a heat-absorbing surface to maximize energy conversion.

太阳能电池板设计有一个热吸收表面，以最大化能量转换。

2.Our experiment showed that the heat-absorbing surface of the metal increased the temperature rapidly.

我们的实验表明，金属的热吸收表面使温度迅速升高。

3.The new roofing material features a heat-absorbing surface that keeps homes cooler in summer.

新型屋顶材料具有热吸收表面，在夏季保持房屋凉爽。

4.In urban areas, buildings with heat-absorbing surfaces can help reduce heat islands.

在城市地区，具有热吸收表面的建筑可以帮助减少热岛效应。

5.The heat-absorbing surface of the black paint allows it to absorb more sunlight.

黑色涂料的热吸收表面使其能够吸收更多阳光。

作文

In recent years, the concept of sustainability has gained significant attention in various fields, particularly in architecture and urban planning. One of the key elements that contribute to energy efficiency in buildings is the use of materials designed with a heat-absorbing surface. A heat-absorbing surface refers to any material or coating that can effectively absorb solar radiation and convert it into heat. This characteristic can be particularly beneficial in reducing energy consumption for heating and cooling purposes.The primary advantage of employing a heat-absorbing surface in building design is its ability to maintain comfortable indoor temperatures. For instance, during the daytime, a roof or wall coated with a heat-absorbing surface can absorb sunlight, preventing excessive heat from entering the interior space. This leads to less reliance on air conditioning systems, which not only reduces electricity bills but also decreases the overall carbon footprint of a building.Moreover, the strategic placement of heat-absorbing surfaces can enhance the thermal mass of a building. Thermal mass refers to the ability of a material to store and release heat. By incorporating heat-absorbing surfaces into the design, architects can create a more stable indoor climate, where heat is absorbed during the day and released at night, thus minimizing temperature fluctuations. This passive heating and cooling strategy is not only cost-effective but also aligns with environmentally friendly practices.Additionally, the use of heat-absorbing surfaces is not limited to just roofs and walls; it can also be applied to pavements and outdoor spaces. For example, urban areas often suffer from the heat island effect, where concrete and asphalt absorb and retain heat, leading to higher temperatures compared to surrounding rural areas. By implementing heat-absorbing surfaces in these environments, cities can mitigate this effect and create cooler, more pleasant public spaces.Furthermore, advancements in technology have led to the development of innovative materials that possess enhanced heat-absorbing surface properties. These materials are designed to optimize the absorption of solar energy while reflecting unnecessary heat during peak hours. Such innovations not only improve the efficiency of buildings but also contribute to the longevity of the materials used, as they are less prone to damage caused by extreme temperature fluctuations.In conclusion, the integration of heat-absorbing surfaces in construction and urban design plays a crucial role in promoting energy efficiency and sustainability. By utilizing materials that effectively absorb and manage heat, we can create comfortable living environments while minimizing our ecological impact. As we continue to confront the challenges posed by climate change, the importance of adopting such technologies becomes increasingly clear. Embracing the concept of heat-absorbing surfaces is a step towards a more sustainable future, where our built environments harmoniously coexist with the natural world.

近年来，可持续发展的理念在各个领域得到了广泛关注，特别是在建筑和城市规划中。影响建筑能效的关键因素之一是使用设计有热吸收表面的材料。热吸收表面是指能够有效吸收太阳辐射并将其转化为热量的任何材料或涂层。这种特性在减少供暖和制冷所需的能量消耗方面尤为重要。在建筑设计中采用热吸收表面的主要优点是能够维持舒适的室内温度。例如，在白天，涂有热吸收表面的屋顶或墙壁可以吸收阳光，防止过多的热量进入室内空间。这导致对空调系统的依赖减少，这不仅降低了电费，还减少了建筑的整体碳足迹。此外，热吸收表面的战略性布置可以增强建筑的热质量。热质量是指材料储存和释放热量的能力。通过在设计中融入热吸收表面，建筑师可以创造出更稳定的室内气候，即白天吸收热量，夜间释放热量，从而最小化温度波动。这种被动的加热和冷却策略不仅具有成本效益，还符合环保实践。此外，热吸收表面的使用不仅限于屋顶和墙壁；它也可以应用于人行道和户外空间。例如，城市地区常常遭受热岛效应，即混凝土和沥青吸收和保持热量，导致温度高于周围农村地区。通过在这些环境中实施热吸收表面，城市可以减轻这一效应，并创造更凉爽、更宜人的公共空间。此外，技术的进步导致开发出具有增强热吸收表面特性的创新材料。这些材料旨在优化太阳能的吸收，同时在高峰时段反射不必要的热量。这些创新不仅提高了建筑的效率，还延长了所用材料的使用寿命，因为它们不易受到极端温度波动造成的损害。总之，在建筑和城市设计中整合热吸收表面在促进能效和可持续性方面发挥着至关重要的作用。通过利用能够有效吸收和管理热量的材料，我们可以创造舒适的生活环境，同时最小化我们的生态影响。随着我们继续面对气候变化带来的挑战，采用此类技术的重要性变得愈加明显。接受热吸收表面的概念是朝着更可持续的未来迈出的一步，在这个未来中，我们的建筑环境与自然世界和谐共存。