Effect of sulfate removal in a high sulfate volumetric loading micro-aerobic bio-reactor and study of subsequent bio-sulfur adsorption by iron-modified activated carbon

摘要

Removal of sulfide from a micro-aerobic bio-reactor was studied at 10?000 mg L ~(?1) chemical oxygen demand (COD) of inlet water, with the sulfate volumetric loading 0.75, 1.0, 1.5 and 2.0 kg (m ~(?3) d ~(?1) ), respectively. Tentatively, activated carbon (AC) as an adsorbent was modified in positively charged iron to adsorb bio-sulfur through electrostatic interaction. At an O _(2) /S molar ratio of 8–10, the reactor was sufficient to decrease the sulfide in the effluent and biogas to low levels at the sulfate volumetric loading of 2 kg (m ~(?3) d ~(?1) ). After iron-modified, the specific surface area of AC was form 32.4 m ~(2) g ~(?1) to 65.0 m ~(2) g ~(?1) , and the zeta potential was 25.3 mV at pH 7.0. The XRD pattern of the iron-modified activated carbon (FeAC) explained that the metal species of iron was Fe _(3) O _(4) . It could be clearly seen that there was Fe _(3) O _(4) on the surface of the FeAC, and sulfur particles with a large particle size were adsorbed by the FeAC on the SEM figures. And the XRD pattern of the bio-sulfur explained that the bio-sulfur was made up of S _(8) (91.444%), C _(3) H _(4) N _(2) OS (1.491%) and CH _(5) N _(3) S (7.075%). The zeta potential of bio-sulfur was ?25 mV and the particle size was mainly distributed at the average diameter of 1935 nm at pH 7.0.