heat absorption

简明释义

热吸收

英英释义

例句

1.The study focused on the heat absorption 热吸收 characteristics of various soil types.

这项研究重点分析了不同土壤类型的热吸收 热吸收特性。

2.The new roofing material has excellent heat absorption 热吸收 properties, making it ideal for hot climates.

这种新型屋顶材料具有优良的热吸收 热吸收特性，非常适合炎热的气候。

3.The heat absorption 热吸收 of the ocean helps regulate the Earth's climate.

海洋的热吸收 热吸收有助于调节地球的气候。

4.In solar panels, heat absorption 热吸收 is crucial for converting sunlight into energy.

在太阳能电池板中，热吸收 热吸收对将阳光转化为能量至关重要。

5.To improve energy efficiency, buildings are designed with materials that enhance heat absorption 热吸收 during the winter.

为了提高能效，建筑物采用增强热吸收 热吸收的材料，以便在冬季保持温暖。

作文

Heat absorption is a crucial concept in various fields, including physics, environmental science, and engineering. It refers to the process by which materials take in heat energy from their surroundings. This phenomenon plays a significant role in determining temperature changes in different environments, whether it be in the atmosphere, oceans, or within buildings. Understanding heat absorption (热吸收) helps us comprehend how energy is transferred and stored, influencing climate patterns and the efficiency of heating and cooling systems.In the context of environmental science, heat absorption (热吸收) is particularly relevant when discussing global warming and climate change. Different surfaces on Earth have varying capacities for heat absorption (热吸收). For instance, dark-colored surfaces such as asphalt absorb more heat compared to lighter surfaces like concrete. This difference in heat absorption (热吸收) affects local temperatures and can contribute to the urban heat island effect, where cities become significantly warmer than their rural surroundings due to increased heat absorption (热吸收) by buildings and roads.Moreover, the oceans play a vital role in regulating the Earth's climate through heat absorption (热吸收). Water has a high specific heat capacity, meaning it can absorb and store large amounts of heat without experiencing drastic temperature changes. This property is essential for maintaining stable climates, as oceans act as buffers against extreme temperature fluctuations. The heat absorption (热吸收) by oceans also impacts weather patterns, as warm ocean water can lead to increased evaporation, resulting in more intense storms and rainfall.In engineering, particularly in the design of buildings, understanding heat absorption (热吸收) is vital for creating energy-efficient structures. Architects and engineers often consider materials with low heat absorption (热吸收) properties to reduce the amount of heat that enters a building. For example, using reflective roofing materials can decrease heat absorption (热吸收), thereby lowering the need for air conditioning during hot months. Additionally, incorporating green roofs and walls can enhance heat absorption (热吸收) reduction while providing insulation and aesthetic benefits.Furthermore, advancements in technology have led to the development of materials specifically designed to optimize heat absorption (热吸收) for various applications. For instance, phase change materials (PCMs) can absorb and release heat as they transition between solid and liquid states. These materials are increasingly used in building materials to enhance thermal regulation, making spaces more comfortable while reducing energy consumption.In conclusion, heat absorption (热吸收) is a multifaceted concept that influences many aspects of our environment and daily lives. From its impact on climate change and urban heat islands to its importance in energy-efficient building designs, understanding heat absorption (热吸收) allows us to make informed decisions that can lead to more sustainable practices. As we continue to face challenges related to energy consumption and climate change, harnessing the principles of heat absorption (热吸收) will be essential in developing innovative solutions for a better future.

热吸收是多个领域（包括物理学、环境科学和工程学）中的一个关键概念。它指的是材料从周围环境中吸收热能的过程。这种现象在确定不同环境中的温度变化方面起着重要作用，无论是在大气、海洋还是建筑物内部。理解热吸收（heat absorption）有助于我们理解能量如何转移和储存，影响气候模式以及供暖和制冷系统的效率。在环境科学的背景下，热吸收（heat absorption）在讨论全球变暖和气候变化时尤其相关。地球表面不同的表面对热吸收（heat absorption）的能力各不相同。例如，深色表面如沥青吸收的热量比浅色表面如混凝土多。这种热吸收（heat absorption）的差异会影响局部温度，并可能导致城市热岛效应，即由于建筑物和道路的增加而使城市显著高于其农村周围地区的温度。此外，海洋在通过热吸收（heat absorption）调节地球气候方面发挥着至关重要的作用。水具有较高的比热容，这意味着它可以在没有剧烈温度变化的情况下吸收和储存大量热量。这个特性对于维持稳定的气候至关重要，因为海洋充当了极端温度波动的缓冲器。海洋的热吸收（heat absorption）也影响天气模式，因为温暖的海水可以导致蒸发增加，从而导致更强烈的风暴和降雨。在工程学中，特别是在建筑设计中，理解热吸收（heat absorption）对创建节能结构至关重要。建筑师和工程师通常考虑使用低热吸收（heat absorption）特性的材料，以减少进入建筑物的热量。例如，使用反射屋顶材料可以减少热吸收（heat absorption），从而降低炎热月份对空调的需求。此外，结合绿色屋顶和墙壁可以增强热吸收（heat absorption）减少的效果，同时提供绝缘和美观的好处。此外，技术的进步导致开发出专门设计用于优化热吸收（heat absorption）以满足各种应用的材料。例如，相变材料（PCMs）可以在固态和液态之间转变时吸收和释放热量。这些材料越来越多地用于建筑材料中，以增强热调节，使空间更加舒适，同时减少能耗。总之，热吸收（heat absorption）是一个多方面的概念，影响着我们环境和日常生活的许多方面。从它对气候变化和城市热岛的影响，到它在节能建筑设计中的重要性，理解热吸收（heat absorption）使我们能够做出明智的决策，从而导致更可持续的实践。随着我们继续面临与能源消耗和气候变化相关的挑战，利用热吸收（heat absorption）的原理将在开发创新解决方案以创造更美好的未来中至关重要。