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Density functional theory investigation of gasification mechanism of a lignin dimer with β-5 linkage

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  • Zhang, Hang
  • Deng, Shengxiang
  • Cao, Xiaolin

Abstract

Density functional theory was employed to investigate gasification mechanism of β-5 linkage lignin in high temperature steam at B3LYP/6-31G++(d,p) level. Four possible decomposition reaction pathways and four successive reactions pathways were proposed. The equilibrium geometries of the reactants, transition states, intermediates and products were optimized. The activation energies, Gibbs free energy changes and enthalpy changes of each reaction step in gasification pathways were analyzed. From the calculation results of ΔHθ, it is concluded that the four decomposition reaction are endothermic below 1300 K, and exothermic exceed 1500 K. Furthermore, the ΔHθ of each reaction decrease with temperature increasing. From the ΔGθ calculation results, Path 2 and Path 3 occur spontaneously without temperature limited. Path 1 and Path 4, however, are spontaneous reaction above 700 K. It is not ensure that Path 5, Path 6, Path 7 and Path 8 can occur spontaneously. Comparison of activation energy of each reaction pathway, Path 2 is optimal decomposition reaction without a competitive reaction. The main products in decomposition reaction are 5-hydroxyphenyl-acetaldehyde (P5) and 12-hydoxymethyl-phenol (P4). Path7 is the optimal subsequent reaction with a competitive reaction, i.e., Path 5. The main products in subsequent reaction are CO, phenol and formaldehyde.

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  • Zhang, Hang & Deng, Shengxiang & Cao, Xiaolin, 2018. "Density functional theory investigation of gasification mechanism of a lignin dimer with β-5 linkage," Renewable Energy, Elsevier, vol. 115(C), pages 937-945.
    • Handle: RePEc:eee:renene:v:115:y:2018:i:c:p:937-945
    DOI: 10.1016/j.renene.2017.08.095
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    References listed on IDEAS

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    1. Zhu, Chen & Cao, Jing-Pei & Feng, Xiao-Bo & Zhao, Xiao-Yan & Yang, Zhen & Li, Jun & Zhao, Ming & Zhao, Yun-Peng & Bai, Hong-Cun, 2021. "Theoretical insight into the hydrogenolysis mechanism of lignin dimer compounds based on experiments," Renewable Energy, Elsevier, vol. 163(C), pages 1831-1837.

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