Embodied Energy and Thermal Performance of Alternate Walling Materials in Affordable Housing in the Composite Climate of Delhi

Gunjan Jain, S. Manchanda, Mandeep Singh
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Abstract

Meeting the affordable housing shortage in India in a short time has its environmental and social challenges. It not only requires huge resources but is also a big social responsibility to provide economical and comfortable housing for the marginalized section of society. Improper selection of construction materials may lead to the locking up of massive energy as embodied energy of materials and uncomfortable indoor living conditions. The present study focuses on the need for consideration of both embodied energy and thermal performance in the selection of materials for the building envelope in naturally ventilated affordable housing in India. Walling materials form a major part of the building envelope and thus it's crucial to assess their performance. This paper presents an analysis of embodied energy and thermal performance of fly ash Bricks, AAC blocks, and RCC precast panels as walling options in comparison to conventional walling material of burnt clay brick in the composite climate zone of Delhi. This analysis is being carried out for the alternate walling solutions in practice or emerging for mid to high-rise EWS housing construction in this region. The embodied energy values per cubic meter are compared for each wall assembly for the lifecycle stage cradle to gate. Thermal simulation results are presented in terms of indoor operative temperatures achieved by each wall type material and compared with the comfort temperature range prescribed by the comfort model IMAC-R, 2022 to find out the ‘discomfort degree hours’. The results of the study underscore the suitability of fly ash bricks and AAC blocks as sustainable alternatives due to their lower embodied energy compared to traditional burnt clay bricks base case. Fly ash bricks even outperform the base case in terms of thermal comfort. The study discourages the use of burnt clay bricks due to very high embodied energy. The study also strongly discourages the use of RCC panels in the composite climate as they exhibit both poor thermal comfort and high embodied energy. The study findings would help government agencies to make environmentally and socially conscious decisions about the use of walling materials on a large scale in meeting the affordable housing demand.
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德里复合气候条件下经济适用房替代墙体材料的内蕴能量和热性能
要在短时间内解决印度经济适用房短缺的问题,需要应对环境和社会挑战。为社会边缘群体提供经济舒适的住房不仅需要大量资源,也是一项重大的社会责任。建筑材料选择不当可能会导致大量能源被锁定为材料的内含能源,并造成不舒适的室内居住条件。本研究的重点是,在选择印度自然通风经济适用房的建筑围护结构材料时,需要同时考虑体现能和热性能。墙体材料是建筑围护结构的主要组成部分,因此对其性能进行评估至关重要。本文分析了粉煤灰砖、AAC 砌块和 RCC 预制板作为墙体材料的体现能耗和热性能,并与德里复合气候区的传统烧粘土砖墙体材料进行了比较。该分析针对的是该地区中高层 EWS 房屋建筑中正在使用或出现的替代墙体解决方案。比较了每种墙体组件在从摇篮到大门的生命周期阶段中每立方米的体现能值。热模拟结果显示了每种墙体材料达到的室内工作温度,并与 2022 年 IMAC-R 舒适模型规定的舒适温度范围进行了比较,以找出 "不适度小时"。研究结果表明,粉煤灰砖和 AAC 砌块与传统的烧粘土砖相比,能耗较低,适合作为可持续发展的替代材料。就热舒适度而言,粉煤灰砖甚至优于基本方案。由于烧制粘土砖的能耗非常高,该研究不鼓励使用烧制粘土砖。该研究还强烈反对在复合气候条件下使用 RCC 板,因为它们的热舒适性差,而且能耗高。研究结果将有助于政府机构在大规模使用墙体材料以满足经济适用房需求方面做出具有环境和社会意识的决策。
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