heat accumulation

简明释义

储热

英英释义

例句

1.During summer, heat accumulation in asphalt can raise temperatures significantly.

在夏季，沥青中的热量积累可以显著提高温度。

2.The greenhouse effect contributes to significant heat accumulation in urban areas.

温室效应导致城市地区显著的热量积累。

3.To prevent heat accumulation, proper ventilation is essential in buildings.

为了防止热量积累，建筑物中必须有适当的通风。

4.The study focused on the effects of heat accumulation on local ecosystems.

这项研究集中于热量积累对当地生态系统的影响。

5.Engineers must consider heat accumulation when designing cooling systems for machinery.

工程师在设计机械冷却系统时必须考虑热量积累。

作文

The phenomenon of heat accumulation is one that has significant implications in various fields, including environmental science, engineering, and even daily life. At its core, heat accumulation refers to the process by which heat energy is stored in a substance or environment over time. This can occur in natural systems, such as the warming of the Earth's surface due to solar radiation, or in man-made systems, such as buildings that retain heat from heating systems. Understanding heat accumulation is crucial for developing strategies to manage energy use and mitigate climate change.In environmental science, heat accumulation plays a vital role in understanding global warming and climate change. The Earth absorbs solar energy, which warms the atmosphere, oceans, and land. However, human activities, particularly the burning of fossil fuels, have increased the concentration of greenhouse gases in the atmosphere. These gases trap heat, leading to an enhanced heat accumulation effect. As a result, the average global temperature rises, causing various changes in climate patterns, melting ice caps, and rising sea levels. Scientists study heat accumulation to predict future climate scenarios and develop effective policies to combat climate change.In engineering, heat accumulation is a critical factor in designing energy-efficient buildings and systems. For example, architects often incorporate materials with high thermal mass, such as concrete or brick, which can absorb and store heat during the day and release it at night. This process reduces the need for artificial heating and cooling, thereby saving energy and reducing costs. Moreover, technologies like phase change materials (PCMs) are being developed to enhance heat accumulation in buildings, allowing them to maintain comfortable temperatures with minimal energy input.On a personal level, understanding heat accumulation can help individuals make informed decisions about their energy consumption. For instance, during hot summer days, people may notice that their homes become significantly warmer in the afternoon. This is largely due to heat accumulation in walls, roofs, and furnishings. By employing strategies such as shading windows, using reflective materials, or improving insulation, homeowners can minimize heat accumulation and maintain a cooler indoor environment without relying heavily on air conditioning.In conclusion, heat accumulation is a multifaceted concept that impacts our environment, engineering practices, and daily lives. Whether we are addressing the challenges of climate change, designing energy-efficient structures, or simply trying to stay comfortable in our homes, recognizing the importance of heat accumulation is essential. As we continue to explore innovative solutions to manage heat energy, we can work towards a more sustainable future that balances our energy needs with the health of our planet.

“热量积累”这一现象在环境科学、工程学乃至日常生活中都有着重要的影响。其核心是指热能在物质或环境中随时间储存的过程。这种现象可以在自然系统中发生，例如，地球表面因太阳辐射而变暖；也可以在人工系统中发生，如建筑物从供暖系统中保留热量。理解“热量积累”对于制定管理能源使用和减缓气候变化的策略至关重要。在环境科学中，“热量积累”在理解全球变暖和气候变化方面起着至关重要的作用。地球吸收太阳能，导致大气、海洋和陆地变暖。然而，人类活动，特别是燃烧化石燃料，增加了大气中温室气体的浓度。这些气体会捕获热量，导致“热量积累”效应增强。因此，全球平均温度上升，引发气候模式的变化、冰盖融化和海平面上升。科学家们研究“热量积累”，以预测未来的气候情景并制定有效的政策来应对气候变化。在工程学中，“热量积累”是设计节能建筑和系统的重要因素。例如，建筑师通常会采用具有高热质量的材料，如混凝土或砖块，这些材料可以在白天吸收和储存热量，并在夜间释放。这一过程减少了对人工供暖和制冷的需求，从而节省能源和降低成本。此外，像相变材料（PCM）这样的技术正在开发中，以增强建筑中的“热量积累”，使其能够在最小的能源输入下维持舒适的温度。在个人层面上，理解“热量积累”可以帮助个人做出明智的能源消费决策。例如，在炎热的夏季，人们可能注意到他们的家在下午变得显著更热。这主要是由于墙壁、屋顶和家具中的“热量积累”。通过采取遮阳窗户、使用反射材料或改善绝缘等策略，房主可以最小化“热量积累”，在不依赖空调的情况下保持室内环境凉爽。总之，“热量积累”是一个多方面的概念，影响着我们的环境、工程实践和日常生活。无论我们是在应对气候变化的挑战、设计节能建筑，还是仅仅想在家中保持舒适，认识到“热量积累”的重要性都是必不可少的。随着我们继续探索管理热能的创新解决方案，我们可以朝着一个更可持续的未来迈进，平衡我们的能源需求与地球的健康。