Socio-economic impact of solar cooking technologies on community kitchens under different climate conditions: A review

IF 1.8 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Ashutosh Verma, Claude Ziad El-Bayeh, Dharam Buddhi, Mohammad Amir, Furkan Ahmad, Hardial Singh
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Abstract

Residential cooking with non-renewable energy sources, such as firewood, charcoal, natural gas, participate in the emission of more than a gigaton of CO2 per year, which represents 2% of the global CO2 emissions. Additionally, toxic particles including sulfur dioxide, carbon monoxide, and mercury are released leading to elevated levels of indoor air pollution, and adversely affecting the health of the inhabitants. The residential sector's non-renewable energy cooking devices also pose significant problems, consuming approximately 30%–40% of global energy usage, with over 80% dedicated to cooking applications. To mitigate the negative impacts of traditional cooking on health and the environment, various renewable energy-based cooking technologies have been developed recently. The primary contributions of our paper are to: (a) present a comprehensive review of concentrated solar thermal cooking technologies, assessing their social, economic, and environmental impact across different climatic zones in developing countries like India; (b) classify and compare different solar cooking technologies, highlighting their advantages and limitations in various scenarios; (c) evaluate the energy efficiency of diverse solar cooking technologies; (d) analyze the impact of solar cookers on communities in developing countries; and (e) identify the challenges and future directions for solar cooker technologies, particularly in solar community kitchens. Our novel findings demonstrate that using solar cooking devices can reduce energy consumption by up to 56% in Indian schools. Moreover, the payback period ranges from 3 to 6 years, contingent on the technology's cost, climatic conditions, and available subsidies. Consequently, significant positive impacts on society, the economy, and the environment are observed when traditional cooking devices are replaced by solar cooking devices. This study provides a unique and thorough analysis, contributing to the growing body of knowledge on sustainable cooking solutions and their potential to transform energy consumption patterns in developing regions.

Abstract Image

不同气候条件下太阳能烹饪技术对社区厨房的社会经济影响:综述
居民使用木柴、木炭、天然气等不可再生能源做饭,每年排放的二氧化碳超过十亿吨,占全球二氧化碳排放量的 2%。此外,还释放出二氧化硫、一氧化碳和汞等有毒颗粒,导致室内空气污染水平升高,对居民的健康造成不利影响。住宅部门的不可再生能源烹饪设备也带来了严重问题,其消耗的能源约占全球能源使用量的 30%-40%,其中 80% 以上用于烹饪。为了减轻传统烹饪对健康和环境的负面影响,最近开发出了各种基于可再生能源的烹饪技术。本文的主要贡献在于(a) 对聚光太阳能热烹饪技术进行全面回顾,评估其在印度等发展中国家不同气候带的社会、经济和环境影响;(b) 对不同的太阳能烹饪技术进行分类和比较,强调其在各种情况下的优势和局限性;(c) 评估各种太阳能烹饪技术的能源效率;(d) 分析太阳能炊具对发展中国家社区的影响;(e) 确定太阳能炊具技术,特别是太阳能社区厨房面临的挑战和未来发展方向。我们的新研究结果表明,在印度学校使用太阳能烹饪设备可减少高达 56% 的能源消耗。此外,投资回收期从 3 年到 6 年不等,取决于技术成本、气候条件和可用补贴。因此,用太阳能烹饪设备取代传统烹饪设备会对社会、经济和环境产生重大的积极影响。这项研究提供了独特而透彻的分析,为有关可持续烹饪解决方案及其改变发展中地区能源消费模式的潜力的知识库的不断壮大做出了贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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