diffuse radiation
简明释义
散射辐射
英英释义
例句
1.In solar energy applications, diffuse radiation 散射辐射 is crucial for understanding how much energy can be harnessed on cloudy days.
在太阳能应用中,散射辐射 diffuse radiation 对于理解在阴天可以收集多少能量至关重要。
2.Architects design buildings with large windows to maximize diffuse radiation 散射辐射 for natural lighting.
建筑师设计大窗户的建筑,以最大化散射辐射 diffuse radiation 以获得自然采光。
3.The study of diffuse radiation 散射辐射 helps scientists understand the Earth's energy balance.
对散射辐射 diffuse radiation 的研究帮助科学家理解地球的能量平衡。
4.Plants rely on diffuse radiation 散射辐射 to perform photosynthesis effectively, especially in shaded environments.
植物依赖于散射辐射 diffuse radiation 在阴影环境中有效地进行光合作用。
5.Meteorologists often measure diffuse radiation 散射辐射 to predict weather patterns and understand climate change.
气象学家经常测量散射辐射 diffuse radiation 以预测天气模式和理解气候变化。
作文
In the study of environmental science, understanding various forms of energy transfer is crucial. One such concept is diffuse radiation, which refers to sunlight that has been scattered by molecules and particles in the atmosphere. This scattering process allows sunlight to reach the Earth's surface even when the sun is obscured by clouds. The significance of diffuse radiation lies not only in its role in providing light but also in its impact on climate, weather patterns, and ecological systems.When we think about solar energy, we often envision direct sunlight hitting the ground on a clear day. However, on overcast days or in shaded areas, it is the diffuse radiation that plays a vital role in illuminating our surroundings. Unlike direct sunlight, which can be intense and harsh, diffuse radiation creates a softer light that can be more beneficial for certain plants and ecosystems. For instance, many understory plants in forests thrive in the gentle embrace of diffuse radiation, which allows them to grow without the stress of direct sun exposure.Moreover, diffuse radiation is essential for solar energy applications. Solar panels are designed to capture both direct and diffuse sunlight, but their efficiency can vary depending on the amount of diffuse radiation present. In regions where cloud cover is frequent, solar energy systems must be optimized to harness this scattered light effectively. Understanding the patterns of diffuse radiation can lead to better designs and placements of solar panels, maximizing energy capture throughout the year.The implications of diffuse radiation extend beyond energy production. In urban planning, architects and city planners consider diffuse radiation when designing buildings and public spaces. Properly oriented windows and reflective surfaces can enhance the quality of light in indoor environments, reducing the need for artificial lighting during the day. This not only saves energy but also improves the overall ambiance of a space, creating healthier living and working conditions.Furthermore, diffuse radiation plays a role in meteorology and climate studies. Scientists analyze the distribution of diffuse radiation to understand how it influences temperature variations and precipitation patterns. Areas with high levels of diffuse radiation may experience different climatic conditions compared to regions dominated by direct sunlight. This knowledge helps in predicting weather events and preparing for climate-related challenges, such as agriculture management and disaster preparedness.In conclusion, diffuse radiation is a multifaceted phenomenon that significantly affects our environment. From supporting plant growth to enhancing solar energy systems and influencing urban design, its impacts are far-reaching. By studying diffuse radiation, we can gain insights into sustainable practices and develop strategies to adapt to our changing climate. As we continue to explore the complexities of energy transfer and its implications, the importance of diffuse radiation will undoubtedly remain a critical area of focus in environmental science and beyond.
在环境科学的研究中,理解各种能量转移的形式至关重要。其中一个概念是散射辐射,指的是阳光被大气中的分子和颗粒散射后的状态。这一散射过程使阳光能够在太阳被云层遮挡时仍然到达地球表面。散射辐射的重要性不仅体现在提供光照上,还影响着气候、天气模式和生态系统。当我们想到太阳能时,往往会想象在晴天直接照射到地面的阳光。然而,在阴天或阴影区域,正是散射辐射在照亮我们的周围环境中发挥了重要作用。与强烈而刺眼的直射阳光不同,散射辐射创造了一种更柔和的光线,这对某些植物和生态系统更为有利。例如,许多森林的底层植物在散射辐射的温和照射下茁壮成长,而无需承受直接阳光的压力。此外,散射辐射对太阳能应用至关重要。太阳能电池板设计用于捕获直射光和散射光,但其效率可能因散射辐射的数量而异。在云层覆盖频繁的地区,太阳能系统必须优化以有效利用这种散射光。理解散射辐射的模式可以促进太阳能电池板的更好设计和布局,从而最大化全年能量捕获。散射辐射的影响超越了能源生产。在城市规划中,建筑师和城市规划者在设计建筑和公共空间时考虑到散射辐射。适当朝向的窗户和反射表面可以提升室内环境的光照质量,减少白天对人工照明的需求。这不仅节省了能源,还改善了空间的整体氛围,创造出更健康的生活和工作条件。此外,散射辐射在气象学和气候研究中也起着重要作用。科学家分析散射辐射的分布,以了解它如何影响温度变化和降水模式。具有高水平散射辐射的地区可能会经历与以直射阳光为主的地区不同的气候条件。这一知识有助于预测天气事件并为气候相关挑战做好准备,例如农业管理和灾害应对。总之,散射辐射是一个多方面的现象,对我们的环境产生了显著影响。从支持植物生长到增强太阳能系统,再到影响城市设计,其影响深远。通过研究散射辐射,我们可以获得可持续实践的见解,并制定适应气候变化的策略。在我们继续探索能量转移的复杂性及其影响时,散射辐射的重要性无疑将继续成为环境科学及其他领域的关键关注点。
