Passive cooling for thermal comfort in informal housing

IF 0.6 4区 工程技术 Q4 ENERGY & FUELS Journal of Energy in Southern Africa Pub Date : 2020-02-28 DOI:10.17159/2413-3051/2020/V31I1A7689
D. Kimemia, A. van Niekerk, H. Annegarn, M. Seedat
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引用次数: 6

Abstract

Energy-poor households in Africa’s burgeoning urban informal settlements are especially likely to suffer from heatwaves because of thermally inefficient dwellings and lack of affordable cooling options. This study utilised a controlled experiment to assess the effectiveness of passive cooling through specially formulated paints (cool coatings) in standard informal structures. The test structures were built to simulate typical shack dwellings in South Africa’s urban informal settlements. Results showed that the mean daily maximum temperatures of the coated structure were up to 4.3 °C lower than those in the uncoated structure. The same cooling trend was observed for the minimum daily temperatures, which were lower by an average of 2.2 °C. Besides, the annual frequency of maximum temperature exceedances beyond the critical heat stroke value of 40 °C dropped from 19% for the uncoated structure to 1% for the coated structure. These temperature differences were found to be statistically and subjectively significant, implying that cool coatings may be effective in promoting thermal comfort and climate resilience in poor urban communities. It is recommended that governmental authorities and relevant role players invest in the production and assisted application of cool coatings in urban informal settlements. The interventions promise hope of reduced energy burden on poor households and could be implemented in parallel with ongoing efforts focused on the design and implementation of low-cost, durable and thermally comfortable houses for indigent communities. Ultimately, the endeavours could be a potential policy change to assist in expanding poor households’ access to alternative and green energy resources.
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非正式住房的热舒适被动式冷却
在非洲迅速发展的城市非正式住区中,能源匮乏的家庭尤其容易受到热浪的影响,因为住宅的热能效率低下,而且缺乏负担得起的制冷选择。本研究利用一项对照实验来评估在标准非正式结构中通过特殊配方涂料(冷却涂料)进行被动冷却的有效性。测试结构是为了模拟南非城市非正式定居点的典型棚屋住宅而建造的。结果表明,涂层结构的日平均最高温度比未涂层结构低4.3℃。最低日气温也出现了同样的降温趋势,平均降低了2.2°C。此外,年最高温度超过临界中暑值40°C的频率从未涂层结构的19%下降到涂层结构的1%。这些温度差异在统计上和主观上都是显著的,这意味着冷涂层可能有效地促进城市贫困社区的热舒适和气候适应能力。建议政府当局和有关角色在城市非正式住区投资生产和协助应用冷涂料。这些干预措施有望减轻贫穷家庭的能源负担,并可与目前着重于为贫穷社区设计和实施低成本、耐用和热舒适住房的努力同时执行。最终,这些努力可能是一种潜在的政策变化,以协助扩大贫困家庭获得替代能源和绿色能源的机会。
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来源期刊
CiteScore
3.00
自引率
0.00%
发文量
16
审稿时长
6 months
期刊介绍: The journal has a regional focus on southern Africa. Manuscripts that are accepted for consideration to publish in the journal must address energy issues in southern Africa or have a clear component relevant to southern Africa, including research that was set-up or designed in the region. The southern African region is considered to be constituted by the following fifteen (15) countries: Angola, Botswana, Democratic Republic of Congo, Lesotho, Malawi, Madagascar, Mauritius, Mozambique, Namibia, Seychelles, South Africa, Swaziland, Tanzania, Zambia and Zimbabwe. Within this broad field of energy research, topics of particular interest include energy efficiency, modelling, renewable energy, poverty, sustainable development, climate change mitigation, energy security, energy policy, energy governance, markets, technology and innovation.
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