加强气候适应能力:在极端气温事件和厄尔尼诺现象的挑战下,利用城市水技术改善东南亚城市的耐热有形基础设施

IF 4.8 Q1 ENVIRONMENTAL SCIENCES
Tonni Agustiono Kurniawan*, Kai Chen Goh*, Hui Hwang Goh*, Dongdong Zhang*, Meihui Jiang, Wei Dai, Imran Ali, Mohd Hafiz Dzarfan Othman, Faissal Aziz, Abdelkader Anouzla, Soufiane Haddout and Christia Meidiana, 
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引用次数: 0

摘要

面对不断升级的气候变化影响,东南亚日益迫切地需要加强该地区城市的防御能力,以抵御极端气温和厄尔尼诺现象的加剧影响。这项研究深入探讨了城市供水技术在加强整个地区耐热基础设施方面的作用。这项工作还评估了有助于发展城市地区耐热基础设施的城市水技术。这包括研究有助于减轻极端气温对水基础设施的影响并提高其抵御气候变化能力的创新方法。这些方法包括绿色基础设施、分散式供水系统和先进的冷却技术,它们有可能提高城市水基础设施对热压力和极端温度的适应能力。通过实证研究,本研究强调了采取积极措施提高该地区城市抗灾能力的必要性。这项工作的意义为政策制定者、城市规划者和利益相关者提供了切实可行的见解,以提高该地区的气候适应能力,同时强调了水技术在降低风险和提高适应能力方面的作用。通过整合先进冷却系统和绿色基础设施等城市技术,东南亚地区的城市不仅可以减轻与热有关的风险,还能促进可持续发展道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Strengthening Climate Resilience: Urban Water Technologies for Heat-Resilient Physical Infrastructure in Southeast Asia Cities Amidst Extreme Temperature Events and El Niño Challenges

Strengthening Climate Resilience: Urban Water Technologies for Heat-Resilient Physical Infrastructure in Southeast Asia Cities Amidst Extreme Temperature Events and El Niño Challenges

In the face of escalating climate change impacts, Southeast Asia is witnessing a growing urgency to fortify regional cities against extreme temperatures and the exacerbating effects of El Niño events. This work delves into the role of urban water technologies in bolstering heat-resilient infrastructure across the region. This work also assesses urban water technologies that can contribute to the development of heat-resilient infrastructure in urban areas. This involves examining innovative approaches that can help mitigate the impacts of extreme temperatures on water infrastructure and enhance its resilience to climate change. They include green infrastructure, decentralized water systems, and advanced cooling technologies that have the potential to improve the resilience of urban water infrastructure to heat stress and extreme temperatures. Through empirical studies, this study underscores the imperative for proactive measures to enhance urban resilience in the region. The implications of this work offer practical insights for policymakers, urban planners, and stakeholders to bolster climate resilience in the region, emphasizing the role of water technologies in mitigating risks and enhancing adaptive capacity. By integrating urban technologies such as advanced cooling systems and green infrastructure, cities in the southeast Asia region not only can mitigate heat-related risks but also foster sustainable development pathways.

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