thermal inertia
简明释义
热惯性
英英释义
例句
1.Understanding thermal inertia (热惯性) is crucial for architects designing energy-efficient buildings.
理解热惯性(thermal inertia)对设计节能建筑的建筑师至关重要。
2.A well-insulated home benefits from the thermal inertia (热惯性) of its walls and floors.
一个良好绝缘的家从其墙壁和地板的热惯性(thermal inertia)中受益。
3.The building's design takes advantage of its high thermal inertia (热惯性) to maintain a stable indoor temperature.
这座建筑的设计利用其高热惯性(thermal inertia)来保持室内温度的稳定。
4.In climates with extreme temperatures, materials with significant thermal inertia (热惯性) can help reduce energy costs.
在极端气候中,具有显著热惯性(thermal inertia)的材料可以帮助降低能源成本。
5.The thermal inertia (热惯性) of water makes it an effective coolant in industrial processes.
水的热惯性(thermal inertia)使其成为工业过程中的有效冷却剂。
作文
Thermal inertia is a crucial concept in the study of heat transfer and energy conservation. It refers to the ability of a material to absorb and store heat, which can significantly impact the thermal performance of buildings and other structures. Understanding thermal inertia (热惯性) is essential for architects and engineers as they design energy-efficient systems that minimize heating and cooling costs.In the context of construction, materials with high thermal inertia (热惯性) can help maintain stable indoor temperatures by absorbing excess heat during the day and releasing it at night. This property is particularly important in climates with significant temperature fluctuations between day and night. For instance, using materials such as concrete or stone, which have high thermal inertia (热惯性), can help create a more comfortable living environment without relying heavily on mechanical heating and cooling systems.Moreover, the concept of thermal inertia (热惯性) is not limited to building materials alone. It also plays a vital role in environmental science, particularly in understanding climate change. The Earth's oceans, for example, exhibit high thermal inertia (热惯性), which means they can absorb large amounts of heat from the sun. This property helps regulate global temperatures, but it also means that changes in ocean temperatures can lag behind changes in atmospheric conditions. As a result, scientists must consider thermal inertia (热惯性) when modeling climate patterns and predicting future changes in weather and climate.The implications of thermal inertia (热惯性) extend to various fields, including renewable energy. For instance, solar thermal systems rely on materials with high thermal inertia (热惯性) to store heat collected from sunlight. These systems can provide hot water or heating for homes and businesses, reducing reliance on fossil fuels and contributing to a more sustainable energy future.In summary, thermal inertia (热惯性) is an essential concept that affects many aspects of our lives, from architecture to climate science and renewable energy. By understanding and utilizing the principles of thermal inertia (热惯性), we can create more energy-efficient buildings, better predict climate changes, and develop sustainable energy solutions. As we continue to face challenges related to energy consumption and environmental sustainability, the importance of thermal inertia (热惯性) will only grow, highlighting the need for further research and innovation in this field.
热惯性是热传递和能量保存研究中的一个关键概念。它指的是材料吸收和储存热量的能力,这可以显著影响建筑物和其他结构的热性能。理解热惯性(thermal inertia)对建筑师和工程师在设计节能系统时至关重要,这些系统旨在最小化供暖和制冷成本。在建筑的背景下,具有高热惯性(thermal inertia)的材料可以通过在白天吸收多余的热量并在夜间释放热量来帮助维持稳定的室内温度。这一特性在昼夜温差显著的气候中尤为重要。例如,使用混凝土或石材等具有高热惯性(thermal inertia)的材料可以帮助创造一个更舒适的居住环境,而无需过度依赖机械供暖和制冷系统。此外,热惯性(thermal inertia)的概念不仅限于建筑材料。它在环境科学中也发挥着重要作用,特别是在理解气候变化方面。地球的海洋例如表现出高热惯性(thermal inertia),这意味着它们可以吸收来自太阳的大量热量。这一特性有助于调节全球温度,但也意味着海洋温度的变化可能滞后于大气条件的变化。因此,科学家在建模气候模式和预测未来天气及气候变化时,必须考虑热惯性(thermal inertia)。热惯性(thermal inertia)的影响还扩展到可再生能源等多个领域。例如,太阳能热系统依赖于具有高热惯性(thermal inertia)的材料来储存从阳光中收集的热量。这些系统可以为家庭和企业提供热水或取暖,减少对化石燃料的依赖,并为更可持续的能源未来做出贡献。总之,热惯性(thermal inertia)是一个影响我们生活各个方面的重要概念,从建筑学到气候科学,再到可再生能源。通过理解和利用热惯性(thermal inertia)的原理,我们可以创建更节能的建筑,更好地预测气候变化,并开发可持续的能源解决方案。随着我们继续面临与能源消费和环境可持续性相关的挑战,热惯性(thermal inertia)的重要性只会增加,这突显了在这一领域进一步研究和创新的必要性。
相关单词
