heat absorption

简明释义

热的吸收

英英释义

例句

1.Solar panels are effective due to their high heat absorption 热吸收 capabilities.

太阳能电池板因其高热吸收 heat absorption能力而有效。

2.In cold climates, maximizing heat absorption 热吸收 can reduce heating costs significantly.

在寒冷气候中，最大化热吸收 heat absorption可以显著降低取暖成本。

3.The research focused on the heat absorption 热吸收 rates of different surface materials.

研究集中在不同表面材料的热吸收 heat absorption速率上。

4.The design of the building maximizes heat absorption 热吸收 to maintain a comfortable indoor temperature.

这座建筑的设计最大化了热吸收 heat absorption，以维持舒适的室内温度。

5.The heat absorption 热吸收 properties of dark materials make them ideal for passive heating.

深色材料的热吸收 heat absorption特性使其成为被动供暖的理想选择。

作文

In the study of thermodynamics, the concept of heat absorption plays a crucial role in understanding how energy is transferred within different systems. Heat absorption refers to the process by which a material or substance takes in thermal energy from its surroundings. This phenomenon can be observed in various natural and artificial processes, influencing everything from climate patterns to the design of energy-efficient buildings.One of the most significant examples of heat absorption occurs in the Earth's atmosphere and oceans. The sun emits a vast amount of energy, and a substantial portion of this energy is absorbed by the Earth's surface. Different materials absorb heat at varying rates, which is why dark surfaces, such as asphalt roads, get hotter than lighter surfaces, like concrete. This differential heat absorption contributes to local climate variations and affects weather patterns. For instance, urban areas, often characterized by dark roofs and pavements, tend to trap more heat, leading to the urban heat island effect, where cities become significantly warmer than their rural surroundings.In addition to environmental implications, heat absorption is also a critical factor in engineering and architectural design. Architects and engineers must consider how materials will absorb or reflect heat when designing buildings. For example, using materials with high heat absorption properties can help in passive solar heating, where buildings are designed to maximize solar energy capture during the winter months. Conversely, in warmer climates, reflective materials may be preferred to minimize heat absorption and keep indoor spaces cooler.Moreover, heat absorption is a fundamental concept in the development of renewable energy technologies. Solar panels, for instance, are designed to maximize heat absorption to convert sunlight into electricity efficiently. The effectiveness of these systems relies heavily on their ability to absorb heat and then transform it into usable energy. Understanding the principles of heat absorption allows engineers to innovate and improve the efficiency of solar energy systems, contributing to a more sustainable future.In summary, heat absorption is a vital process that influences various aspects of our world, from natural ecosystems to human-made structures. By studying and applying the principles of heat absorption, we can better understand climate dynamics, enhance architectural designs, and develop more efficient energy solutions. As we continue to face challenges related to climate change and energy consumption, the importance of heat absorption will only grow, highlighting the need for ongoing research and innovation in this field.

在热力学研究中，热吸收的概念在理解不同系统内能量转移方面起着至关重要的作用。热吸收是指材料或物质从其周围环境中吸收热能的过程。这种现象可以在各种自然和人工过程中观察到，影响从气候模式到节能建筑设计的方方面面。热吸收最显著的例子之一发生在地球的大气层和海洋中。太阳释放出大量能量，其中相当一部分被地球表面吸收。不同材料的热吸收速率各不相同，这就是为什么黑色表面（如沥青道路）比浅色表面（如混凝土）更热的原因。这种差异化的热吸收促成了局部气候变化，并影响天气模式。例如，城市地区通常以深色屋顶和人行道为特征，往往会捕获更多的热量，导致城市热岛效应，即城市的温度显著高于乡村环境。除了环境影响，热吸收还是工程和建筑设计中的一个关键因素。建筑师和工程师在设计建筑时必须考虑材料如何吸收或反射热量。例如，使用具有高热吸收特性的材料可以帮助实现被动式太阳能采暖，即建筑设计最大限度地捕获冬季的太阳能。相反，在较温暖的气候中，可能更倾向于使用反射性材料，以减少热吸收并保持室内空间凉爽。此外，热吸收也是可再生能源技术发展的基本概念。例如，太阳能电池板旨在最大限度地提高热吸收，以有效地将阳光转化为电力。这些系统的有效性在很大程度上依赖于它们吸收热量并将其转化为可用能量的能力。理解热吸收的原理使工程师能够创新并提高太阳能系统的效率，从而为更可持续的未来做出贡献。总之，热吸收是一个重要的过程，影响着我们世界的各个方面，从自然生态系统到人造结构。通过研究和应用热吸收的原理，我们可以更好地理解气候动态，增强建筑设计，并开发更高效的能源解决方案。随着我们继续面临与气候变化和能源消耗相关的挑战，热吸收的重要性只会增加，突显出在这一领域持续研究和创新的必要性。