absorption of heat radiations

简明释义

热辐射的吸收

英英释义

例句

1.The greenhouse effect is largely due to the absorption of heat radiations, which traps warmth in the atmosphere.

温室效应主要是由于热辐射的吸收，这使得温暖被困在大气中。

2.Insulation materials are designed to minimize the absorption of heat radiations to maintain comfortable indoor temperatures.

绝缘材料旨在最小化热辐射的吸收，以保持舒适的室内温度。

3.Materials with high thermal mass can enhance the absorption of heat radiations during the day and release it at night.

具有高热质量的材料可以增强白天对热辐射的吸收，并在夜间释放。

4.The absorption of heat radiations by the ocean plays a crucial role in regulating global temperatures.

海洋对热辐射的吸收在调节全球温度方面起着至关重要的作用。

5.In solar panels, the efficiency depends on the absorption of heat radiations from sunlight.

在太阳能电池板中，效率取决于对阳光的热辐射的吸收。

作文

The phenomenon of the absorption of heat radiations plays a crucial role in various fields, ranging from meteorology to engineering. Understanding how different materials interact with heat radiations is essential for optimizing energy efficiency and enhancing comfort in our living environments. Heat radiations are often emitted by the sun and other sources, and their absorption of heat radiations can significantly affect temperature regulation in both natural and artificial settings.In meteorology, the absorption of heat radiations by the Earth's atmosphere and surface is fundamental to the planet's climate system. When sunlight reaches the Earth, a portion of it is reflected back into space, while the rest is absorbed by land, water, and vegetation. This absorption process warms the surface, which in turn emits heat radiations back into the atmosphere. The balance between incoming solar radiation and outgoing heat radiations is vital for maintaining a stable climate. Any disruption in this balance, such as through increased greenhouse gas emissions, can lead to global warming and climate change.In architectural design, the absorption of heat radiations is a key consideration for energy-efficient buildings. Materials used in construction can vary widely in their ability to absorb or reflect heat. For instance, dark-colored surfaces tend to absorb more heat radiations than lighter ones. This principle is applied when designing roofs and walls to either retain warmth during colder months or reflect heat during the summer. By selecting appropriate materials and colors, architects can create buildings that minimize energy consumption and enhance indoor comfort.Furthermore, the absorption of heat radiations is also significant in the field of renewable energy, particularly in solar energy systems. Solar panels are designed to maximize the absorption of sunlight, converting it into electricity. The efficiency of these panels depends on their ability to absorb heat radiations effectively. Advances in technology continue to improve the materials used in solar panels, allowing for greater energy capture and conversion rates. As society moves towards more sustainable energy solutions, understanding and optimizing the absorption of heat radiations becomes increasingly important.In conclusion, the absorption of heat radiations is a fundamental concept that impacts our environment, architecture, and energy systems. By enhancing our understanding of how various materials interact with heat radiations, we can make informed decisions that contribute to energy efficiency and climate sustainability. Whether through innovative building designs or advancements in renewable energy technologies, the implications of heat radiation absorption are vast and far-reaching. As we face the challenges of climate change and energy consumption, harnessing the principles of absorption of heat radiations will be essential for creating a sustainable future.

热辐射的吸收现象在气象学到工程学等各个领域都发挥着至关重要的作用。理解不同材料如何与热辐射相互作用对于优化能源效率和提高我们生活环境的舒适度至关重要。热辐射通常由太阳和其他源发出，其吸收可以显著影响自然和人造环境中的温度调节。在气象学中，地球大气层和表面对热辐射的吸收是地球气候系统的基础。当阳光照射到地球时，一部分被反射回太空，而其余部分被土地、水体和植被吸收。这个吸收过程使表面变暖，进而将热辐射重新发射回大气中。入射太阳辐射和外发热辐射之间的平衡对维持稳定的气候至关重要。任何这种平衡的破坏，例如通过增加温室气体排放，都可能导致全球变暖和气候变化。在建筑设计中，热辐射的吸收是节能建筑的关键考虑因素。用于建筑的材料在吸收或反射热量的能力上差异很大。例如，深色表面往往比浅色表面吸收更多的热辐射。这一原理在设计屋顶和墙壁时得到了应用，以保持冬季的温暖或在夏季反射热量。通过选择合适的材料和颜色，建筑师可以创造出最小化能源消耗并提高室内舒适度的建筑。此外，热辐射的吸收在可再生能源领域也具有重要意义，特别是在太阳能系统中。太阳能电池板被设计为最大限度地吸收阳光，并将其转化为电力。这些电池板的效率取决于它们有效吸收热辐射的能力。技术的进步不断改善太阳能电池板中使用的材料，从而提高能量捕获和转化率。随着社会向更可持续的能源解决方案迈进，理解和优化热辐射的吸收变得越来越重要。总之，热辐射的吸收是一个基本概念，影响着我们的环境、建筑和能源系统。通过增强我们对各种材料如何与热辐射相互作用的理解，我们可以做出明智的决定，为能源效率和气候可持续性做出贡献。无论是通过创新的建筑设计还是可再生能源技术的进步，热辐射吸收的影响都是广泛而深远的。面对气候变化和能源消耗的挑战，利用热辐射的吸收原理将对创造可持续的未来至关重要。