However, Mo/HZSM-5 has the potential to yield more BTEXN, as the maximum
yield of BTEXN is 7020 ng/mg at 800 C. The results indicate that Mo has been loaded on the HZSM-
5 zeolite as MoO3. As a result, Mo/HZSM-5 can promote the aromatization of olefins and alkanes, dehydroxylation of phenolic compounds, as well as aromatization of CH4. Thus, Mo/HZSM-5 is more suitable
for the catalytic conversion of the gaseous products from coal pyrolysis into BTEXN.
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