Nehemiah Mukwevho , Andile Mkhohlakali , Napo Ntsasa , James Sehata , Luke Chimuka , James Tshilongo , Mokgehle R. Letsoalo
{"title":"从不同代光伏技术的报废电池板中回收资源的方法 - 综述","authors":"Nehemiah Mukwevho , Andile Mkhohlakali , Napo Ntsasa , James Sehata , Luke Chimuka , James Tshilongo , Mokgehle R. Letsoalo","doi":"10.1016/j.rser.2024.114980","DOIUrl":null,"url":null,"abstract":"<div><div>The rise in prominence of solar energy as a green technology demanded economical and sustainable waste management due to the anticipated surge of end-of-life panel waste streams. While there are many advantages to the increase in solar power output, end-of-life solar panels could become a source of hazardous waste. Therefore, the disposal of photovoltaic panels will become a major environmental concern in the next decades. Generations of photovoltaic technologies, namely crystalline silicon, thin-film, and third-generation solar panels, share the goal of achieving waste reduction through useful strategies for recovery of secondary raw materials from obsolete panels. This research reviews the current status and future prospects for valuable constituents, waste projections, and trends in technological advances for recycling and recovery of resource materials from different generations of photovoltaic solar systems. Projections of global photovoltaic waste driven by the expansion of solar system installations illuminate the influx of waste streams that burden the environment if there are no measures in place for sustainable waste management. The crystalline silicon and thin-film PV technologies have demonstrated sufficient advancements in resource recovery technologies for industrial use in circular economy and closed-loop recycling to minimize environmental impacts and prevent leaching of toxic elements. Industrial application of pyrolysis and chemical etching has emerged as a promising approach to recovery of high-purity secondary valuable materials from obsolete c-Si panels. Substantial recoveries of critical from obsolete thin-film panels are notable with the application of mechanical and hydrometallurgical waste treatment techniques. Third-generation waste treatment methods are largely based on laboratory experiments because these solar systems are on the verge of commercialization.</div></div>","PeriodicalId":418,"journal":{"name":"Renewable and Sustainable Energy Reviews","volume":null,"pages":null},"PeriodicalIF":16.3000,"publicationDate":"2024-10-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Methodological approaches for resource recovery from end-of-life panels of different generations of photovoltaic technologies – A review\",\"authors\":\"Nehemiah Mukwevho , Andile Mkhohlakali , Napo Ntsasa , James Sehata , Luke Chimuka , James Tshilongo , Mokgehle R. Letsoalo\",\"doi\":\"10.1016/j.rser.2024.114980\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><div>The rise in prominence of solar energy as a green technology demanded economical and sustainable waste management due to the anticipated surge of end-of-life panel waste streams. While there are many advantages to the increase in solar power output, end-of-life solar panels could become a source of hazardous waste. Therefore, the disposal of photovoltaic panels will become a major environmental concern in the next decades. Generations of photovoltaic technologies, namely crystalline silicon, thin-film, and third-generation solar panels, share the goal of achieving waste reduction through useful strategies for recovery of secondary raw materials from obsolete panels. This research reviews the current status and future prospects for valuable constituents, waste projections, and trends in technological advances for recycling and recovery of resource materials from different generations of photovoltaic solar systems. Projections of global photovoltaic waste driven by the expansion of solar system installations illuminate the influx of waste streams that burden the environment if there are no measures in place for sustainable waste management. The crystalline silicon and thin-film PV technologies have demonstrated sufficient advancements in resource recovery technologies for industrial use in circular economy and closed-loop recycling to minimize environmental impacts and prevent leaching of toxic elements. Industrial application of pyrolysis and chemical etching has emerged as a promising approach to recovery of high-purity secondary valuable materials from obsolete c-Si panels. Substantial recoveries of critical from obsolete thin-film panels are notable with the application of mechanical and hydrometallurgical waste treatment techniques. 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Methodological approaches for resource recovery from end-of-life panels of different generations of photovoltaic technologies – A review
The rise in prominence of solar energy as a green technology demanded economical and sustainable waste management due to the anticipated surge of end-of-life panel waste streams. While there are many advantages to the increase in solar power output, end-of-life solar panels could become a source of hazardous waste. Therefore, the disposal of photovoltaic panels will become a major environmental concern in the next decades. Generations of photovoltaic technologies, namely crystalline silicon, thin-film, and third-generation solar panels, share the goal of achieving waste reduction through useful strategies for recovery of secondary raw materials from obsolete panels. This research reviews the current status and future prospects for valuable constituents, waste projections, and trends in technological advances for recycling and recovery of resource materials from different generations of photovoltaic solar systems. Projections of global photovoltaic waste driven by the expansion of solar system installations illuminate the influx of waste streams that burden the environment if there are no measures in place for sustainable waste management. The crystalline silicon and thin-film PV technologies have demonstrated sufficient advancements in resource recovery technologies for industrial use in circular economy and closed-loop recycling to minimize environmental impacts and prevent leaching of toxic elements. Industrial application of pyrolysis and chemical etching has emerged as a promising approach to recovery of high-purity secondary valuable materials from obsolete c-Si panels. Substantial recoveries of critical from obsolete thin-film panels are notable with the application of mechanical and hydrometallurgical waste treatment techniques. Third-generation waste treatment methods are largely based on laboratory experiments because these solar systems are on the verge of commercialization.
期刊介绍:
The mission of Renewable and Sustainable Energy Reviews is to disseminate the most compelling and pertinent critical insights in renewable and sustainable energy, fostering collaboration among the research community, private sector, and policy and decision makers. The journal aims to exchange challenges, solutions, innovative concepts, and technologies, contributing to sustainable development, the transition to a low-carbon future, and the attainment of emissions targets outlined by the United Nations Framework Convention on Climate Change.
Renewable and Sustainable Energy Reviews publishes a diverse range of content, including review papers, original research, case studies, and analyses of new technologies, all featuring a substantial review component such as critique, comparison, or analysis. Introducing a distinctive paper type, Expert Insights, the journal presents commissioned mini-reviews authored by field leaders, addressing topics of significant interest. Case studies undergo consideration only if they showcase the work's applicability to other regions or contribute valuable insights to the broader field of renewable and sustainable energy. Notably, a bibliographic or literature review lacking critical analysis is deemed unsuitable for publication.
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