Catalytic fast pyrolysis of jatropha wastes

In this work, the decomposition behaviors of jatropha wastes (husk, seed shell and branch) have been examined in order to get desired liquid organic compounds, but not undesired inorganic compounds such as CO, CO2, water and coke. The jatropha wastes exhibit a stepwise degradation pathway which has a slight difference in between samples before and after milling. In the preliminary pyrolysis using quartz reactor and H-ZSM-5(30) catalyst, the liquid products selectivity was seed shell > blanch > husk > seed shell (no catalyst). In the absence of catalyst, the Py-GC/MS analyses for pyrolysis of jatropha wastes show a range of aromatic hydrocarbons, phenols, alcohols and ketones, acids and esters, ethers and aldehydes. Aromatics are predominantly formed above 90% of area percentage by use of catalyst. Of aromatic compounds, xylenes, naphthalenes and toluene are mainly produced. The product selectivity is dependent on both the size of the catalyst pores and the nature of the active sites and one candidate is H-ZSM-5 and the other candidate is β-zeolite. The reaction pathway involves dehydrogenation and dehydroaromatization of aliphatic oxygenates such as alkylcyclohexanol and higher carboxylic acids to form phenol derivatives, which undergo hydrodeoxygenation into toluene and xylenes, followed by dehydroaromatization to give naphthalenes.

► We got organic products from decomposition behaviors of jatropha wastes (husk, seed shell and branch). ► By use of H-ZSM-5 or β-zeolite catalysts, aromatic hydrocarbon yields of 90% were produced. ► The reaction pathways include dehydrogenation and dehydroaromatization and hydrodeoxygenation.