building climatology

简明释义

建筑气候学

英英释义

例句

1.Incorporating building climatology 建筑气候学 into urban planning can significantly reduce energy consumption.

将建筑气候学 建筑气候学纳入城市规划可以显著减少能源消耗。

2.Research on building climatology 建筑气候学 can lead to better indoor air quality.

对建筑气候学 建筑气候学的研究可以改善室内空气质量。

3.Understanding building climatology 建筑气候学 is essential for creating sustainable living environments.

理解建筑气候学 建筑气候学对创造可持续的生活环境至关重要。

4.The study of building climatology 建筑气候学 helps architects design energy-efficient buildings.

对建筑气候学 建筑气候学的研究帮助建筑师设计节能建筑。

5.The principles of building climatology 建筑气候学 guide the selection of materials used in construction.

在建筑中，建筑气候学 建筑气候学的原则指导材料的选择。

作文

In recent years, the concept of building climatology has gained significant attention in the fields of architecture and environmental science. Building climatology refers to the study of how buildings interact with their surrounding climate, focusing on factors such as temperature, humidity, wind patterns, and solar radiation. Understanding these interactions is crucial for designing energy-efficient buildings that can withstand the challenges posed by climate change.One of the primary goals of building climatology is to create structures that are not only functional but also harmonize with the local environment. By analyzing climatic data, architects and engineers can make informed decisions about building orientation, insulation materials, and ventilation systems. For instance, in regions with hot climates, buildings can be designed with overhangs and shading devices to reduce heat gain, while in colder areas, maximizing sunlight exposure can help maintain indoor warmth.Moreover, building climatology plays a vital role in sustainability. As the world grapples with the impacts of global warming, it becomes increasingly important to construct buildings that minimize energy consumption and reduce greenhouse gas emissions. By utilizing principles of building climatology, designers can implement passive heating and cooling strategies, thereby decreasing reliance on mechanical systems. This not only lowers energy costs but also contributes to a healthier planet.Incorporating building climatology into urban planning is equally essential. Cities are often characterized by their unique microclimates, influenced by factors such as vegetation, topography, and human activity. Urban planners can leverage knowledge from building climatology to design green spaces that enhance air quality and reduce urban heat islands. By integrating natural elements into the urban fabric, cities can become more resilient to climate fluctuations and provide better living conditions for their inhabitants.Furthermore, the implications of building climatology extend beyond individual buildings to entire communities. As we face increasing weather extremes, understanding how neighborhoods respond to climate conditions can inform disaster preparedness and recovery strategies. For example, areas prone to flooding can benefit from elevated structures and permeable surfaces that allow rainwater to seep into the ground rather than accumulate on streets.Education and research in building climatology are also critical for advancing our understanding of the built environment's relationship with climate. Universities and research institutions are increasingly offering programs focused on this interdisciplinary field, encouraging collaboration among architects, engineers, environmental scientists, and policymakers. By fostering a deeper knowledge of building climatology, we can cultivate a new generation of professionals equipped to tackle the pressing issues of our time.In conclusion, building climatology is an essential field that bridges architecture, environmental science, and urban planning. By understanding the complex interactions between buildings and their climate, we can design structures that are not only energy-efficient but also resilient to the challenges posed by climate change. As we move forward, embracing the principles of building climatology will be vital for creating sustainable, livable, and adaptable communities for future generations.

近年来，建筑气候学这一概念在建筑和环境科学领域引起了广泛关注。建筑气候学指的是研究建筑与其周围气候之间相互作用的学科，重点关注温度、湿度、风向和太阳辐射等因素。理解这些相互作用对于设计能够应对气候变化挑战的节能建筑至关重要。建筑气候学的主要目标之一是创造不仅功能齐全而且与当地环境和谐共存的结构。通过分析气候数据，建筑师和工程师可以就建筑朝向、绝缘材料和通风系统做出明智的决策。例如，在炎热气候地区，建筑可以设计成具有悬挑和遮阳装置，以减少热量吸收，而在寒冷地区，最大限度地利用阳光照射可以帮助保持室内温暖。此外，建筑气候学在可持续性方面也发挥着重要作用。随着全球变暖影响的加剧，建造能最大限度减少能源消耗和温室气体排放的建筑变得越来越重要。通过利用建筑气候学的原则，设计师可以实施被动供暖和制冷策略，从而减少对机械系统的依赖。这不仅降低了能源成本，还为保护地球做出了贡献。将建筑气候学纳入城市规划同样至关重要。城市通常以其独特的小气候为特征，这些小气候受到植被、地形和人类活动等因素的影响。城市规划者可以利用建筑气候学的知识设计绿色空间，以改善空气质量并减少城市热岛效应。通过将自然元素融入城市结构，城市可以更好地抵御气候波动，并为居民提供更好的生活条件。此外，建筑气候学的影响不仅限于单个建筑，还扩展到整个社区。随着我们面临日益加剧的极端天气，了解邻里如何应对气候条件可以为灾害准备和恢复策略提供信息。例如，易受洪水影响的地区可以受益于提高建筑物和透水表面的设计，使雨水能够渗入地下，而不是在街道上积聚。教育和研究在推进我们对建筑环境与气候关系理解方面同样至关重要。大学和研究机构越来越多地提供专注于这一跨学科领域的课程，鼓励建筑师、工程师、环境科学家和政策制定者之间的合作。通过深化对建筑气候学的理解，我们可以培养出新一代能够应对当今紧迫问题的专业人才。总之，建筑气候学是连接建筑、环境科学和城市规划的重要领域。通过理解建筑与气候之间复杂的相互作用，我们可以设计出不仅节能而且能够抵御气候变化挑战的结构。展望未来，拥抱建筑气候学的原则对于创造可持续、宜居和适应性强的社区至关重要。