Cold plasma-assisted catalytic upcycling of polyolefin wastes integrated with CO_(2)into value-added chemicals is a promising solution for mitigating the global carbon emissions and fossil energy crisis,but still chal...Cold plasma-assisted catalytic upcycling of polyolefin wastes integrated with CO_(2)into value-added chemicals is a promising solution for mitigating the global carbon emissions and fossil energy crisis,but still challenging due to the complexity of products and low energy efficiency.Given this,a novel one-stage process of cold plasma coupled with Ga-modified hierarchical H-ZSM-5(Ga/Hie-ZSM-5)catalyst for polyolefins upgrading was designed with polyolefins followed by the catalysts within the plasma region,which facilitated the upcycling of polyolefins to light olefins and CO_(2)activation by plasma,and thereby the enhanced synergy between cold plasma and catalysts for aromatics production.At an input power of ca.45 W without external heating,the low-density polyethylene(LDPE)waste was completely converted with the assistance of CO_(2)and the yield of oil products over the Ga/Hie-ZSM-5 catalyst was highly up to 62.2 wt%,with nearly 100% selectivity of aromatics.Meanwhile,the degradation efficiency of LDPE and the energy efficiency could reach 2.5 g_(LDPE)·g_(cat)^(-1)·h^(-1)and 55.56 g_(LDPE)·g_(cat)^(-1)·kW^(-1)h^(-1),respectively.Mechanism investigation revealed that the plasma and CO_(2)synergistically affect the primary cracking of LDPE,forming a primary product enriched in olefins and a small amount of CO.Subsequently,the produced olefins intermediates were further aromatized via cyclizationdehydrogenation route on the Ga/Hie-ZSM-5 catalyst with assistance of CO_(2)under the synergistic effect of plasma-catalysis.This work offers a feasible strategy to improve the yield of aromatic products for the plasma-catalytic upcycling of polyolefins and CO_(2)at ambient pressure without any external heating.展开更多
基金financially supported by the National Key R&D Program of China(2023YFA1506602 and 2021YFA1501102)the National Natural Science Foundation of China(21932002,22276023,22402019)+1 种基金the Fundamental Research Funds for the Central Universities(DUT22LAB602)Liaoning Binhai Laboratory Project(LBLF-202306)。
文摘Cold plasma-assisted catalytic upcycling of polyolefin wastes integrated with CO_(2)into value-added chemicals is a promising solution for mitigating the global carbon emissions and fossil energy crisis,but still challenging due to the complexity of products and low energy efficiency.Given this,a novel one-stage process of cold plasma coupled with Ga-modified hierarchical H-ZSM-5(Ga/Hie-ZSM-5)catalyst for polyolefins upgrading was designed with polyolefins followed by the catalysts within the plasma region,which facilitated the upcycling of polyolefins to light olefins and CO_(2)activation by plasma,and thereby the enhanced synergy between cold plasma and catalysts for aromatics production.At an input power of ca.45 W without external heating,the low-density polyethylene(LDPE)waste was completely converted with the assistance of CO_(2)and the yield of oil products over the Ga/Hie-ZSM-5 catalyst was highly up to 62.2 wt%,with nearly 100% selectivity of aromatics.Meanwhile,the degradation efficiency of LDPE and the energy efficiency could reach 2.5 g_(LDPE)·g_(cat)^(-1)·h^(-1)and 55.56 g_(LDPE)·g_(cat)^(-1)·kW^(-1)h^(-1),respectively.Mechanism investigation revealed that the plasma and CO_(2)synergistically affect the primary cracking of LDPE,forming a primary product enriched in olefins and a small amount of CO.Subsequently,the produced olefins intermediates were further aromatized via cyclizationdehydrogenation route on the Ga/Hie-ZSM-5 catalyst with assistance of CO_(2)under the synergistic effect of plasma-catalysis.This work offers a feasible strategy to improve the yield of aromatic products for the plasma-catalytic upcycling of polyolefins and CO_(2)at ambient pressure without any external heating.
