Dark fermentative hydrogen production in packed-bed bioreactor using the Persian Gulf dead coral, ceramic saddle, and ceramic ball as support matrixes.

Dark fermentative hydrogen production by Enterobacter aerogenes in a packed bed bioreactor using three immobilization supports was studied. The effects of glucose concentrations (20, 10, 5, 2.5, and 1.5 g/L) and support matrixes (Persian Gulf dead coral, ceramic saddle, and ceramic ball) on the hydrogen yield (HY) and hydrogen production rate (HPR) at low hydraulic retention time (HRT) were investigated. According to the achieved results, glucose concentration, porosity and shape support, and bed voidage affected hydrogen production. The HYs were increased with decreasing glucose concentration and at 2.5 g/L glucose concentration, the maximum HYs of 3.11, 2.86 and 2.79 mol hydrogen/mol glucose were obtained for dead coral, ceramic ball, and ceramic saddle, respectively. The results indicated that at the HRT of 0.6 h, the bioreactor packed with dead coral resulted in higher HY (3.11 mol H 2 /mol glucose) and HPR (173 mL/L.h) representing 8–11%, and 8–15%, enhancement compared to the bioreactor packed with ceramic supports. Besides, based on the acquired results, the HY and HPR of the ceramic ball were higher than the ceramic saddle. • Dead coral was used as support in a packed bed bioreactor for hydrogen production. • Reactor packed with dead coral resulted in higher HY and HPR compared to ceramic supports. • The HY and HPR of the ceramic ball were higher than the ceramic saddle. • Porosity and shape support and bed voidage affect the immobilization process and hydrogen production. [ABSTRACT FROM AUTHOR]