将太阳能和基于自然的解决方案整合到气候中性的城市环境中

IF 0.9 Q4 GEOCHEMISTRY & GEOPHYSICS
Haiying Liu, N. Skandalos, Liga Braslina, Vasileios C. Kapsalis, D. Karamanis
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引用次数: 1

摘要

本研究的重点是通过整合太阳能技术和基于自然的解决方案,在欧洲城市实现气候中和。通过对当前实践、新兴趋势和案例的考察,本研究探讨了在城市背景下与这种整合相关的好处、挑战和前景。提出了一种开创性的方法,以评估在欧洲背景下将建筑集成光伏和基于自然的解决方案相结合的城市热量和气候变化缓解效益。结果强调了基于自然的组件和太阳能转换技术之间的协同关系,确定了不同气候带的有效组合。在南欧,在较冷的屋顶上安装屋顶光伏、光伏遮阳、绿色墙壁和城市树木等策略在较温暖的地区已经证明了有效性。相反,中纬度和高纬度的欧洲城市通过将屋顶光伏和光伏立面与绿色屋顶和绿色空间相结合,已经看到了积极的影响。随着太阳能电池转换效率的提高,光伏发电对环境的影响有望减少,从而促进其融入城市环境。该研究强调了在城市设计中结合水体、凉爽的人行道、具有高视野因素的空间以及有效规划的重要性,以最大限度地提高弹性效益。此外,该研究强调了在低收入地区优先采取缓解行动和让公民参与社会光伏发展的重要性——正能量房屋、弹性社区和绿色空间。通过采纳这些建议,欧洲城市可以创造气候中性的城市环境,优先考虑清洁能源、基于自然的解决方案和居民的整体福祉。研究结果强调,需要采取多学科方法,将技术创新、城市规划战略和政策框架结合起来,以有效实现气候中和。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Integrating Solar Energy and Nature-Based Solutions for Climate-Neutral Urban Environments
This study focuses on achieving climate neutrality in European cities by integrating solar energy technologies and nature-based solutions. Through an examination of current practices, emerging trends, and case examples, the study explores the benefits, challenges, and prospects associated with this integration in urban contexts. A pioneering approach is presented to assess the urban heat and climate change mitigation benefits of combining building-integrated photovoltaics and nature-based solutions within the European context. The results highlight the synergistic relationship between nature-based components and solar conversion technology, identifying effective combinations for different climatic zones. In Southern Europe, strategies such as rooftop photovoltaics on cool roofs, photovoltaic shadings, green walls, and urban trees have demonstrated effectiveness in warmer regions. Conversely, mid- and high-latitude European cities have seen positive impacts through the integration of rooftop photovoltaics and photovoltaic facades with green roofs and green spaces. As solar cell conversion efficiency improves, the environmental impact of photovoltaics is expected to decrease, facilitating their integration into urban environments. The study emphasizes the importance of incorporating water bodies, cool pavements, spaces with high sky-view factors, and effective planning in urban design to maximize resilience benefits. Additionally, the study highlights the significance of prioritizing mitigation actions in low-income regions and engaging citizens in the development of social photovoltaics-positive energy houses, resilient neighbourhoods, and green spaces. By adopting these recommendations, European cities can create climate-neutral urban environments that prioritize clean energy, nature-based solutions, and the overall wellbeing of residents. The findings underscore the need for a multidisciplinary approach combining technological innovation, urban planning strategies, and policy frameworks to effectively achieve climate neutrality.
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来源期刊
Solar-Terrestrial Physics
Solar-Terrestrial Physics GEOCHEMISTRY & GEOPHYSICS-
CiteScore
1.50
自引率
9.10%
发文量
38
审稿时长
12 weeks
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