Enhanced Breaking of Lignin and Mesopore Formation in Zinc Chloride Assisted Hydrothermal Carbonization of Waste Biomasses

Abstract: Hydrochars from hydrothermal carbonization of different biowaste materials (dried dandelion, sawdust, coconut shell powder) formed in the presence of aqueous salt solutions were compared to those obtained by the common method in pure water. Hydrochars with increased carbon contents, pore volume and surface areas were specifically obtained from coconut shell powder in the presence of zinc chloride. Compositional and structural changes within the hydrochar products caused by the process conditions and/or the add… Show more

“…The hydrochar obtained after HTL of the corn stover was chemically activated with the ZnCl 2 catalyst to increase the formation of mesopores and improve the SSA. ZnCl 2 catalyzes the degradation of the cellulose components and increases higher volumed pores on the hydrochar surfaces by promoting the decomposition of lignin polymeric structures . These stable oxygen species can be cleaved during the chemical activation process, when ZnCl 2 is solubilized and mixed with hydrochar via sonication in solvent water by restricting the formation of oxygen linkages as mentioned above.…”

“…ZnCl 2 catalyzes the degradation of the cellulose components and increases higher volumed pores on the hydrochar surfaces by promoting the decomposition of lignin polymeric structures. 47 These stable oxygen species can be cleaved during the chemical activation process, when ZnCl 2 is solubilized and mixed with hydrochar via sonication in solvent water by restricting the formation of oxygen linkages as mentioned above. In addition, this improves the binding of the OH-sites present on the dispersed hydrochar with the Zn 2+ ions to form Zn−O complexes.…”

Graphitized Biocarbon Derived from Hydrothermally Liquefied Low-Ash Corn Stover

“…The hydrochar obtained after HTL of the corn stover was chemically activated with the ZnCl 2 catalyst to increase the formation of mesopores and improve the SSA. ZnCl 2 catalyzes the degradation of the cellulose components and increases higher volumed pores on the hydrochar surfaces by promoting the decomposition of lignin polymeric structures . These stable oxygen species can be cleaved during the chemical activation process, when ZnCl 2 is solubilized and mixed with hydrochar via sonication in solvent water by restricting the formation of oxygen linkages as mentioned above.…”

“…ZnCl 2 catalyzes the degradation of the cellulose components and increases higher volumed pores on the hydrochar surfaces by promoting the decomposition of lignin polymeric structures. 47 These stable oxygen species can be cleaved during the chemical activation process, when ZnCl 2 is solubilized and mixed with hydrochar via sonication in solvent water by restricting the formation of oxygen linkages as mentioned above. In addition, this improves the binding of the OH-sites present on the dispersed hydrochar with the Zn 2+ ions to form Zn−O complexes.…”

Graphitized Biocarbon Derived from Hydrothermally Liquefied Low-Ash Corn Stover

Biocarbon graphenization processes and energy assessment. A review