Effectiveness and mechanisms of hydrogen sulfide adsorption by camphor-derived biochar

摘要

The characteristics and mechanisms of hydrogen sulfide (H_2S) adsorption on a biochar through pyrolysis at various temperatures (100 to 500℃) were investigated. The biochar used in the current study was derived from the camphor tree (Cinnamomum camphora/ The samples were ground and sieved to produce particle sizes of 0.4 mm to 1.25 mm, 0.3 mm to 0.4 mm, and <0.3 mm. The H_2S breakthrough capacity was measured using a laboratory-designed test. The surface properties of the biochar were characterized using pH and Fourier-transform infrared spectroscopy (FTIR) analysis. The results obtained demonstrate that all camphor-derivedbiochars were effective in H_2S sorption. Certain threshold ranges of the pyrolysis temperature and surface pH were observed, which, when exceeded, have dramatic effects on the H_2S adsorption capacity. The sorption capacity ranged from 1.2 mg/g to 121.4 mg/g. The biochar with 0.3 mm to 0.4 mm particle size possesses a maximum sorption capacity at 400℃. The pH and FTIR analysis results showed that carboxylic and hydroxide radical groups were responsible for H_2S sorption. These observations will be helpful in designing biochar as engineered sorbents for the removal ofH_2S. Implications: This paper studies the potential of biochar derived by camphor to adsorb hydrogen sulfide at environmentally sustainable temperatures. The different sizes of the biochars and the different temperatures of pyrolysis for the camphor particle have a great impact on adsorption of hydrogen sulfide.