BioH2 photoproduction by means of Rhodopseudomonas palustris sp. cultured in a lab-scale photobioreactor operated in batch, fed-batch and semi-continuous modes

Abstract

The present investigation deals with Rhodopseudomonas palustris sp. grown, using acetate, for purposes of hydrogen generation. All experiments were carried out using a lab-scale photobioreactor. The cultures were irradiated with a 150W (OSRAM power star HQI-TS) lamp impinging on the reactor surface an irradiance of 74W/m2. Three different growth regimens were compared: batch, fed-batch, and semi-continuous. In the third approach, two daily dilutions were applied, in order to operate the photobioreactor at two hydraulic retention times: 240h in the first semi-continuous regimen (SC240h) and 60h in the second (SC60h). The best performances were attained when operating the photobioreactor in fed-batch mode. A maximum hydrogen production rate of 15.21mL(H2)/Lh was achieved. The hydrogen yield (YH) was 1.60mol H2/mol acetic acid in SC240h; 1.42mol H2/mol acetic acid when the culture was operated in fed-batch mode, and 0.85mol H2/mol acetic acid under a batch growth regimen. YH decreased to 0.36mol H2/mol acetic acid in SC60h. Significant changes in the oxidation–reduction potential were noted among the selected growth regimens tested then and also over time.