Abstract
Combining adsorptive activated carbon and catalytic oxidative cerium oxide, an adsorptive catalyst could be synthesized. Cerium oxide impregnated on activated carbon had been utilized in various gas pollutant removal technologies. In this study, impregnation of cerium oxide and sodium hydroxide on palm shell activated carbon (PSAC) was attempted to produce an adsorbent for H2S removal from biogas produced in palm oil industry. Effects of preparation parameters of CeO2/NaOH/PSAC towards H2S removal were successfully studied. The studied parameters were impregnation time, cerium amount, NaOH concentration, calcination temperature and calcination time. From the study, it was found that every parameter can be optimized because there was a value of the parameter that resulted in a maximum adsorption capacity. The optimum preparation parameters of CeO2/NaOH/PSAC were found to be 1.5 h impregnation time, 5% cerium, 1.0 M NaOH, 400 °C calcination temperature and 3 h calcination time. Selected adsorbents were characterized in order to further understand adsorbent properties and characteristics of the reaction.
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