Integration of fermentative hydrogen process and fuel cell for on-line electricity generation

Abstract

In this work, a dark H 2 fermentation process was integrated with a proton-exchange-membrane fuel-cell (PEMFC) system for on-line electricity generation. The H 2 producing system was a continuously stirred anaerobic bioreactor (CSABR) seeded with silicone-immobilized sludge. The CSABR system, using sucrose as the sole carbon substrate, was able to continuously and stably produce H 2 for over 300 days at a hydraulic retention time (HRT) of 6 h and an influent sucrose concentration of 30 g COD/l. The maximum H 2 production rate and the optimal H 2 yield were 1.15 ± 0.08 l / h / l and 3.71 ± 0.18 mol H 2 / mol sucrose, respectively. The H 2 produced from the CSABR system was purified via a CO 2 absorber and a silica-gel desiccator, and then the > 99 % pure H 2 was fed into a PEMFC system at a rate of 1.72 l/h, generating electricity with a stable electromotive force of 3.30 ± 0.04 V . The output power was ca. 0.87 W (at 25 ∘ C ), and the output voltage and current were stably maintained at 2.28 V and 0.38 A, respectively, when connected to a small light emission diode (LED) panel.