2023
DOI: 10.3390/su151511724
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Assessing the Life Cycle Sustainability of Solar Energy Production Systems: A Toolkit Review in the Context of Ensuring Environmental Performance Improvements

Dongli Tan,
Yao Wu,
Zhiqing Zhang
et al.

Abstract: In order to pursue clean, low-carbon, safe, and efficient energy utilization and accelerate the development of new energy, sustainability is the necessary research. In recent decades, solar power generation has rapidly formed and been widely applied. Sustainability analysis is a key aspect that directly affects the construction of solar power projects when conducting solar power generation construction. This paper attempts to start with life cycle sustainability assessment (LCSA) and study the status quo of it… Show more

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Cited by 11 publications
(4 citation statements)
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“…The environmental sustainability of perovskite PV systems, as discussed by Weyand et al [ 145 ], hinges on achieving a five-year lifetime to qualify as a climate-friendly technology globally. In another study, Tan et al [ 146 ] emphasized the importance of life cycle sustainability assessment in supporting the sustainable development of solar power generation, including perovskite solar cells. The recycling of perovskite solar cells, as shown by Ziemińska-Stolarska et al [ 138 ], can reduce the environmental load significantly, highlighting the importance of sustainable end-of-life management.…”
Section: Cross-materials Analysismentioning
confidence: 99%
“…The environmental sustainability of perovskite PV systems, as discussed by Weyand et al [ 145 ], hinges on achieving a five-year lifetime to qualify as a climate-friendly technology globally. In another study, Tan et al [ 146 ] emphasized the importance of life cycle sustainability assessment in supporting the sustainable development of solar power generation, including perovskite solar cells. The recycling of perovskite solar cells, as shown by Ziemińska-Stolarska et al [ 138 ], can reduce the environmental load significantly, highlighting the importance of sustainable end-of-life management.…”
Section: Cross-materials Analysismentioning
confidence: 99%
“…The site preparation phase may further lead to habitat loss and changes in local water drainage patterns, necessitating ecological assessments and mitigation strategies. In the operational phase, while solar ponds efficiently collect and store solar energy, they consume significant amounts of water to offset evaporation and can risk contaminating local ecosystems due to their high salinity (Tan et al, 2023). This phase also poses potential risks to biodiversity, highlighting the need for continuous environmental monitoring and adaptive management.…”
Section: Environmental Impact Analysis Of Solar Pondmentioning
confidence: 99%
“…The environmental sustainability of perovskite PV systems, as discussed by Weyand et al [145], hinges on achieving a five-year lifetime to qualify as a climate-friendly technology globally. In another study, Tan et al [146] emphasized the importance of life cycle sustainability assessment in supporting the sustainable development of solar power generation, including perovskite solar cells. The recycling of perovskite solar cells, as shown by Ziemi ńska-Stolarska et al [138], can reduce the environmental load significantly, highlighting the importance of sustainable end-of-life management.…”
Section: Environmental Impactmentioning
confidence: 99%