space microclimate

简明释义

房间微气侯

英英释义

例句

1.Astronauts must be aware of the space microclimate 太空小气候 when conducting experiments outside the spacecraft.

宇航员在进行太空舱外实验时必须了解<space microclimate>太空小气候。

2.The research team is studying the effects of the space microclimate 太空小气候 on plant growth in zero gravity.

研究团队正在研究<space microclimate>太空小气候对零重力下植物生长的影响。

3.Understanding the space microclimate 太空小气候 is crucial for designing sustainable habitats on Mars.

理解<space microclimate>太空小气候对于设计火星可持续栖息地至关重要。

4.The space microclimate 太空小气候 can affect the behavior of materials used in spacecraft construction.

<space microclimate>太空小气候可能会影响用于航天器建造的材料的行为。

5.Scientists are developing sensors to monitor the space microclimate 太空小气候 around satellites.

科学家们正在开发传感器以监测卫星周围的<space microclimate>太空小气候。

作文

In recent years, the concept of a space microclimate has gained significant attention in various fields, including architecture, environmental science, and urban planning. A space microclimate refers to the localized climatic conditions that can exist within a specific area, often differing from the surrounding environment. This phenomenon is particularly important when considering how natural elements interact with human-made structures and how these interactions can influence both ecological systems and human comfort.Understanding space microclimates is essential for architects and urban planners as they design buildings and public spaces. For example, a park located in an urban setting might experience a different temperature, humidity level, and wind pattern than the surrounding cityscape due to the presence of trees, water bodies, and open spaces. These elements can help moderate temperatures, provide shade, and create a more pleasant environment for visitors. The study of space microclimates allows planners to enhance the livability of urban areas by incorporating green spaces that can effectively mitigate heat and improve air quality.Moreover, the concept of space microclimates extends beyond urban environments. In agricultural practices, understanding the microclimate of a specific plot of land can lead to better crop yields. Farmers can utilize data about temperature variations, soil moisture levels, and wind patterns to optimize planting schedules and irrigation methods. By analyzing these localized conditions, they can make informed decisions that enhance productivity while minimizing resource waste.The implications of space microclimates are also significant in the context of climate change. As global temperatures rise, localized climate effects become increasingly pronounced. Certain regions may experience more intense rainfall or prolonged droughts, leading to shifts in local ecosystems. By studying space microclimates, scientists can better predict how these changes will affect biodiversity and ecosystem health. This information is crucial for developing conservation strategies and ensuring the resilience of natural habitats in the face of climate challenges.Furthermore, the impact of space microclimates on human health cannot be overlooked. Urban areas with poorly designed microclimates can contribute to the urban heat island effect, where cities become significantly warmer than their rural surroundings. This phenomenon can exacerbate health issues, particularly among vulnerable populations such as the elderly and those with pre-existing health conditions. By understanding and improving space microclimates, city planners can create healthier living environments that reduce heat exposure and promote well-being.In conclusion, the study of space microclimates is vital across multiple disciplines, from architecture to agriculture and environmental science. It provides insights into how localized climatic conditions affect both natural ecosystems and human activities. As we continue to face the challenges posed by climate change, understanding and optimizing space microclimates will be crucial for creating sustainable and resilient communities. Whether through the integration of green spaces in urban planning or the careful management of agricultural lands, recognizing the significance of space microclimates will play a key role in shaping our future environments.

近年来，‘空间小气候’这一概念在建筑、环境科学和城市规划等多个领域引起了广泛关注。‘空间小气候’指的是特定区域内存在的局部气候条件，这些条件往往与周围环境不同。当考虑自然元素如何与人造结构相互作用，以及这些相互作用如何影响生态系统和人类舒适度时，这一现象尤为重要。理解‘空间小气候’对建筑师和城市规划者至关重要，因为他们在设计建筑和公共空间时需要考虑这些因素。例如，位于城市环境中的公园可能由于树木、水体和开放空间的存在而经历与周围城市景观不同的温度、湿度水平和风向。这些元素可以帮助调节温度、提供阴凉，并为游客创造一个更宜人的环境。对‘空间小气候’的研究使规划者能够通过纳入绿色空间来增强城市地区的宜居性，从而有效减轻热量并改善空气质量。此外，‘空间小气候’的概念不仅限于城市环境。在农业实践中，了解特定土地的微气候可以提高作物产量。农民可以利用有关温度变化、土壤湿度水平和风向的数据来优化种植时间表和灌溉方法。通过分析这些局部条件，他们可以做出明智的决策，从而提高生产力，同时减少资源浪费。在气候变化的背景下，‘空间小气候’的影响也显得尤为重要。随着全球气温上升，局部气候效应变得愈加明显。某些地区可能经历更强烈的降雨或持续的干旱，导致当地生态系统的变化。通过研究‘空间小气候’，科学家们可以更好地预测这些变化将如何影响生物多样性和生态系统健康。这些信息对于制定保护策略和确保自然栖息地在气候挑战面前的韧性至关重要。此外，‘空间小气候’对人类健康的影响也不容忽视。设计不当的城市微气候可能会加剧城市热岛效应，使城市的温度显著高于周围乡村。这一现象可能会加重健康问题，特别是在老年人和有既往健康状况的脆弱人群中。通过理解和改善‘空间小气候’，城市规划者可以创造更健康的生活环境，降低热暴露并促进福祉。总之，‘空间小气候’的研究在建筑、农业和环境科学等多个学科中至关重要。它提供了关于局部气候条件如何影响自然生态系统和人类活动的见解。随着我们继续面临气候变化带来的挑战，理解和优化‘空间小气候’将对创建可持续和有韧性的社区至关重要。无论是通过在城市规划中整合绿色空间，还是通过对农业用地的精心管理，认识到‘空间小气候’的重要性将在塑造我们未来的环境中发挥关键作用。