M Taylor Sobczak, Gengyang Li, Arunachalam Ramanathan, Sri Vaishnavi Thummalapalli, Varunkumar Thippanna, Lindsay B Chambers, Taylor Theobald, Hongyue Sun, Stephen Nolet, Ke Li, Kenan Song
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引用次数: 0
Abstract
This article explores the environmental sustainability of recycling decommissioned wind turbine blades to produce polyacrylonitrile fiber. By comparing greenhouse gas emissions across various scales of production in different regions, including the US and Europe, the study highlights how cleaner energy grids, such as those in France, can substantially reduce the carbon footprint. The carbonization and graphitization stages, identified as highly energy-intensive, underscore the need for energy-efficient techniques and alternative energy sources. The study reveals significant reductions in greenhouse gas emissions with scalable production, demonstrating US production emissions reduced to 3.89 kg CO2 equiv/kg fiber and European production to 3.28 kg CO2 equiv/kg fiber from a lab scale of at least one order of magnitude higher. The findings emphasize the importance of sustainable raw materials, green chemistry, and renewable energy in enhancing the sustainability of carbon fiber production and promoting a circular economy in wind energy.
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