thermal absorption
简明释义
热吸收
英英释义
Thermal absorption refers to the process by which a material takes in thermal energy (heat) from its surroundings, leading to an increase in its temperature. | 热吸收是指材料从周围环境中吸收热能(热量)的过程,从而导致其温度升高。 |
例句
1.Researchers are studying how thermal absorption 热吸收 affects climate change and urban heat islands.
研究人员正在研究热吸收 thermal absorption如何影响气候变化和城市热岛效应。
2.In building design, materials with high thermal absorption 热吸收 can help regulate indoor temperatures.
在建筑设计中,具有高热吸收 thermal absorption的材料可以帮助调节室内温度。
3.The efficiency of solar panels can be significantly improved by enhancing their thermal absorption 热吸收 properties.
通过增强太阳能电池板的热吸收 thermal absorption特性,可以显著提高其效率。
4.The thermal absorption 热吸收 characteristics of a material determine its suitability for insulation.
材料的热吸收 thermal absorption特性决定了其作为绝缘材料的适用性。
5.The thermal absorption 热吸收 of different colors can affect the heating of surfaces in outdoor environments.
不同颜色的热吸收 thermal absorption可以影响户外环境中表面的加热。
作文
Thermal energy plays a crucial role in our daily lives, influencing everything from climate patterns to the functioning of various technologies. One important concept related to thermal energy is thermal absorption, which refers to the process by which materials take in heat energy. Understanding thermal absorption is essential for a variety of fields, including engineering, environmental science, and even architecture. In this essay, we will explore the significance of thermal absorption, its applications, and how it affects our environment.Firstly, thermal absorption is a fundamental concept in thermodynamics. When a material absorbs heat, its temperature increases, and this can lead to various physical changes. For instance, metals generally have high thermal absorption rates, meaning they can quickly absorb heat from their surroundings. This property is particularly useful in applications such as cooking utensils, where quick heating is desired. Conversely, materials with low thermal absorption rates, like wood or certain plastics, are often used in insulation to prevent heat loss.In the context of renewable energy, thermal absorption is vital for solar energy systems. Solar panels are designed to maximize thermal absorption to convert sunlight into usable energy efficiently. The materials used in these panels are specifically chosen for their ability to absorb a wide range of wavelengths from the sun. This process not only generates electricity but also helps in heating water for residential use. By optimizing thermal absorption, we can enhance the efficiency of solar energy systems, making them a more viable alternative to fossil fuels.Moreover, thermal absorption has significant implications for climate change and urban planning. Urban areas tend to have higher temperatures than rural areas, a phenomenon known as the urban heat island effect. This is partly due to the materials used in construction, which often have high thermal absorption properties. For example, asphalt and concrete absorb and retain heat during the day, releasing it slowly at night. By incorporating materials with lower thermal absorption rates, such as green roofs and reflective surfaces, cities can mitigate this effect and create healthier living environments.Furthermore, understanding thermal absorption can help us develop better energy-efficient buildings. Architects and engineers can design structures that minimize unwanted heat gain during the summer while maximizing it during winter. This balance is achieved by strategically selecting materials based on their thermal absorption characteristics. For instance, using materials that reflect sunlight can keep buildings cooler, whereas those that absorb heat can be beneficial in colder climates. This approach not only reduces energy consumption but also lowers utility costs for residents.In conclusion, thermal absorption is a critical concept that affects various aspects of our lives, from technology to environmental sustainability. By understanding how different materials interact with heat energy, we can make informed decisions that lead to improved energy efficiency and a healthier planet. As we continue to face challenges related to climate change and resource management, the importance of thermal absorption will only grow. Embracing innovative solutions that leverage this knowledge will be key to building a sustainable future for generations to come.
热能在我们的日常生活中起着至关重要的作用,影响着从气候模式到各种技术的运作。与热能相关的一个重要概念是热吸收,它指的是材料吸收热能的过程。理解热吸收对工程、环境科学甚至建筑等多个领域都是至关重要的。在这篇文章中,我们将探讨热吸收的重要性、其应用以及它如何影响我们的环境。首先,热吸收是热力学中的一个基本概念。当材料吸收热量时,其温度会升高,这可能导致各种物理变化。例如,金属通常具有较高的热吸收速率,这意味着它们可以迅速从周围环境中吸收热量。这一特性在烹饪器具等应用中尤为有用,因为快速加热是所期望的。相反,具有低热吸收速率的材料,如木材或某些塑料,通常用于绝缘,以防止热量损失。在可再生能源的背景下,热吸收对太阳能系统至关重要。太阳能电池板被设计成最大化热吸收,以高效地将阳光转化为可用的能量。这些电池板中使用的材料是专门选择的,能够吸收来自太阳的广泛波长。这一过程不仅产生电力,还帮助加热住宅用水。通过优化热吸收,我们可以提高太阳能系统的效率,使其成为化石燃料更可行的替代品。此外,热吸收对气候变化和城市规划具有重要影响。城市地区的温度往往高于农村地区,这种现象称为城市热岛效应。这部分是由于建筑中使用的材料,通常具有高热吸收特性。例如,沥青和混凝土在白天吸收并保持热量,晚上缓慢释放。通过使用低热吸收率的材料,例如绿色屋顶和反射表面,城市可以减轻这种效应,创造更健康的生活环境。此外,理解热吸收可以帮助我们开发更节能的建筑。建筑师和工程师可以设计结构,在夏季最小化不必要的热增益,而在冬季最大化热增益。这种平衡是通过根据材料的热吸收特性来战略性选择材料来实现的。例如,使用反射阳光的材料可以保持建筑物的凉爽,而那些吸收热量的材料在寒冷气候中可能是有益的。这种方法不仅减少了能源消耗,还降低了居民的公用事业费用。总之,热吸收是一个关键概念,影响着我们生活的各个方面,从技术到环境可持续性。通过理解不同材料如何与热能相互作用,我们可以做出明智的决策,促进能源效率和更健康的地球。随着我们继续面临气候变化和资源管理相关的挑战,热吸收的重要性只会增加。采用利用这一知识的创新解决方案将是建设可持续未来的关键。
相关单词
