Heat and humidity exposure in megacities: An applied tool for energy and water harvesting technologies

IF 3.6 3区 社会学 Q1 GEOGRAPHY Geographical Journal Pub Date : 2023-12-21 DOI:10.1111/geoj.12568
J. Y. Lax, C. Price, H. Saaroni
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Abstract

Concerns about climate change are driving the development of novel technologies for mitigation and adaptation. Some of them include electricity generating and water harvesting based on atmospheric humidity. The latter is already commercial and can generate 50 L of drinking water per day per capita for dozens of people; however, besides energy, operation requires sufficient levels and durations of humidity and temperature. Our study focuses on the 33 megacities of the world, characterising the humidity and heat stress regimes during the last decade, using data from meteorological stations in their vicinity, and ranking them by their exposure and vulnerability to intense heat stress and their suitability to use these moisture-reliant technologies. Our findings indicate the dominance of severe heat stress conditions in megacities located in developing countries. Ranking the megacities according to the intensity and duration of the heat stress shows the annual, monthly and hourly courses. The five most affected are the cities of Chennai, Bangkok, Kolkata, Karachi and New Delhi. Seven megacities suffer continuous, at least 12 h, of intense heat stress during 1–4 months. The ranking also considered the level of income of the countries, hence their vulnerability. On an annual basis, approximately half of the megacities are highly suited for moisture-reliant technologies, among them megacities ranked as the top three in exposure to intense heat stress conditions—Chennai, Bangkok and Kolkata. When focusing on the humid season, 27 out of 33 megacities (82%) obtain suitable conditions for the new technologies and thus can benefit from them, at least part of the year. The implementation of humidity technologies for green energy and clean water could be of great help as our world gets more populated, warmer with higher water demand, especially for populations with insufficient infrastructure and resources.

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特大城市的湿热暴露:能源和水收集技术的应用工具
对气候变化的担忧推动了新型减缓和适应技术的发展。其中包括基于大气湿度的发电和集水技术。后者已经商业化,每天可为几十个人人均生产 50 升饮用水;然而,除了能源,运行还需要足够的湿度和温度水平和持续时间。我们的研究以全球 33 个特大城市为重点,利用这些城市附近气象站的数据,描述了过去十年间湿度和热应力机制的特征,并根据这些城市在强热应力面前的暴露程度和脆弱性以及是否适合使用这些依靠湿度的技术进行了排名。我们的研究结果表明,发展中国家的特大城市主要存在严重的热应力状况。根据热应激的强度和持续时间对特大城市进行排序,可以看出每年、每月和每小时的热应激情况。受影响最严重的五个城市是钦奈、曼谷、加尔各答、卡拉奇和新德里。有 7 个特大城市在 1-4 个月内持续遭受至少 12 小时的酷热压力。排名还考虑了各国的收入水平,因此也考虑了其脆弱性。按年计算,约有一半的特大城市非常适合采用依靠湿度的技术,其中在遭受酷热压力方面排名前三的特大城市是:清奈、曼谷和加尔各答。如果把重点放在潮湿季节,33 个特大城市中有 27 个(82%)的条件适合采用新技术,因此至少在一年中的部分时间可以从中受益。随着世界人口越来越多,气候越来越温暖,对水的需求也越来越大,尤其是对于基础设施和资源不足的人口来说,采用湿度技术生产绿色能源和清洁水将大有裨益。
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来源期刊
CiteScore
4.10
自引率
3.30%
发文量
69
期刊介绍: The Geographical Journal has been the academic journal of the Royal Geographical Society, under the terms of the Royal Charter, since 1893. It publishes papers from across the entire subject of geography, with particular reference to public debates, policy-orientated agendas.
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