Researchers at Shanghai Jiao Tong University have developed advanced reactors for CO2 sequestration using fly ash particles. These reactors, detailed in a recent study, are optimized through computational fluid dynamics to enhance the efficiency of CO2 capture and mineralization. The research introduces two innovative reactor designs, each improving interfacial interactions and operational efficiency.
Researchers have innovated reactors that use fly ash to effectively mineralize CO2, presenting a sustainable approach to reducing greenhouse gas emissions and advancing global climate goals.sequestration, researchers have developed reactors that use fly ash particles to mineralize carbon dioxide. This innovative method promises a sustainable and enduring solution to the critical problem of greenhouse gas emissions while repurposing an industrial by-product.
The research bears profound implications for coal-fired power plants, offering a transformative use for the fly ash they generate. By channeling this by-product into COmineralization, the study paves the way for diminished carbon emissions and a reduction in the environmental burden of fly ash disposal.
Researchers have innovated reactors that use fly ash to effectively mineralize CO2, presenting a sustainable approach to reducing greenhouse gas emissions and advancing global climate goals.sequestration, researchers have developed reactors that use fly ash particles to mineralize carbon dioxide. This innovative method promises a sustainable and enduring solution to the critical problem of greenhouse gas emissions while repurposing an industrial by-product.
The research bears profound implications for coal-fired power plants, offering a transformative use for the fly ash they generate. By channeling this by-product into COmineralization, the study paves the way for diminished carbon emissions and a reduction in the environmental burden of fly ash disposal.
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