construction climatology

简明释义

建筑气候学

英英释义

例句

1.The principles of construction climatology 建筑气候学 are essential for sustainable building practices.

可持续建筑实践中，建筑气候学 construction climatology 的原则至关重要。

2.Understanding construction climatology 建筑气候学 can help engineers create more energy-efficient structures.

理解建筑气候学 construction climatology 可以帮助工程师创造更节能的结构。

3.In our architecture class, we learned about construction climatology 建筑气候学 to design buildings that adapt to their environments.

在我们的建筑课上，我们学习了建筑气候学 construction climatology，以设计能够适应其环境的建筑。

4.Incorporating construction climatology 建筑气候学 into urban planning can lead to better living conditions.

将建筑气候学 construction climatology 纳入城市规划可以改善生活条件。

5.The study of construction climatology 建筑气候学 involves analyzing local weather patterns.

对建筑气候学 construction climatology 的研究涉及分析当地的天气模式。

作文

In recent years, the concept of construction climatology has gained significant attention within the fields of architecture and environmental science. Construction climatology refers to the study of climate conditions and their impact on building design, construction processes, and energy efficiency. This interdisciplinary approach combines meteorology, architecture, and engineering to create structures that are not only aesthetically pleasing but also resilient to climate variations.One of the primary goals of construction climatology is to optimize building performance by understanding local climate patterns. For instance, architects can analyze historical weather data to determine the best materials and designs for a specific region. Buildings in tropical climates may require different ventilation systems compared to those in temperate or arid zones. By tailoring designs to local conditions, architects can enhance indoor comfort while reducing energy consumption.Moreover, construction climatology plays a crucial role in sustainability. As the world faces increasing challenges related to climate change, it is essential to develop buildings that can withstand extreme weather events such as hurricanes, floods, or heatwaves. Through careful analysis of climatic data, builders can implement strategies like elevated foundations, reinforced structures, and energy-efficient systems that adapt to changing environmental conditions.Another important aspect of construction climatology is its focus on passive design strategies. These strategies utilize natural resources such as sunlight, wind, and rain to reduce reliance on mechanical heating and cooling systems. For example, strategically placed windows can maximize natural light and ventilation, while thermal mass materials can help regulate indoor temperatures. By incorporating these elements into building designs, architects can create healthier living spaces that minimize their ecological footprint.Furthermore, the integration of construction climatology into urban planning is vital for creating resilient cities. Urban areas often experience the urban heat island effect, where temperatures are significantly higher than in surrounding rural areas due to human activities. By utilizing principles of construction climatology, city planners can design green spaces, implement reflective surfaces, and promote the use of vegetation to mitigate this effect. This not only improves the overall quality of life for residents but also contributes to reduced energy demands during peak heat periods.In conclusion, construction climatology is an essential field that bridges the gap between climate science and building design. By understanding the intricate relationship between climate and construction, architects and engineers can create structures that are not only beautiful but also functional and sustainable. As we continue to confront the realities of climate change, the principles of construction climatology will become increasingly important in shaping the future of our built environment. Embracing this knowledge can lead to innovative solutions that ensure the longevity and resilience of our buildings, ultimately contributing to a more sustainable future for generations to come.

近年来，建筑气候学的概念在建筑和环境科学领域引起了广泛关注。建筑气候学是指研究气候条件及其对建筑设计、施工过程和能源效率影响的学科。这一跨学科的方法将气象学、建筑学和工程学结合在一起，旨在创造出既美观又能抵御气候变化的建筑。建筑气候学的主要目标之一是通过了解当地气候模式来优化建筑性能。例如，建筑师可以分析历史天气数据，以确定特定地区最佳的材料和设计。热带气候中的建筑可能需要与温带或干旱地区不同的通风系统。通过将设计量身定制为适应当地条件，建筑师可以提高室内舒适度，同时减少能源消耗。此外，建筑气候学在可持续性方面也发挥着至关重要的作用。随着全球面临与气候变化相关的日益严峻的挑战，开发能够抵御极端天气事件（如飓风、洪水或热浪）的建筑变得至关重要。通过对气候数据的仔细分析，建筑商可以实施诸如高架基础、加固结构和适应变化环境条件的节能系统等策略。建筑气候学的另一个重要方面是其对被动设计策略的关注。这些策略利用自然资源，如阳光、风和雨，减少对机械供暖和制冷系统的依赖。例如，合理布置的窗户可以最大化自然光和通风，而热质量材料可以帮助调节室内温度。通过将这些元素纳入建筑设计，建筑师可以创造出更健康的生活空间，最大限度地减少生态足迹。此外，将建筑气候学融入城市规划对于创建具有韧性的城市至关重要。城市地区往往会经历城市热岛效应，即由于人类活动，温度显著高于周围农村地区。通过利用建筑气候学的原则，城市规划者可以设计绿地、实施反射表面，并促进植被的使用，以缓解这一效应。这不仅改善了居民的整体生活质量，还在高温期间减少了能源需求。总之，建筑气候学是一个至关重要的领域，它架起了气候科学与建筑设计之间的桥梁。通过理解气候与建筑之间的复杂关系，建筑师和工程师可以创造出既美丽又实用且可持续的建筑。随着我们继续面对气候变化的现实，建筑气候学的原则将在塑造我们建筑环境的未来中变得越来越重要。接受这一知识可以带来创新解决方案，确保我们建筑的持久性和韧性，从而为未来几代人创造一个更可持续的未来。