초록
<P><B>Abstract</B></P><P>Hydrogen is regarded as an ideal energy carrier if it is produced from renewable resources such as biomass. Sequential operation of dark and photofermentation allows a highly efficient production of hydrogen from biomass, as maximal conversion of the energy in the carbohydrates to hydrogen can be achieved. In this study photofermentative hydrogen production was carried out in a solar panel photobioreactor by <I>Rhodobacter capsulatus</I> wild type (DSM 1710) and <I>Rhodobacter capsulatus hup<SUP>−</SUP></I> (YO3) strain on the molasses dark fermentation effluents which were obtained using an extreme thermophile <I>Caldicellusiruptor saccharolyticus</I> in the dark fermentation step. Continuous hydrogen production on the molasses dark fermentation effluents was achieved up to 55 days with <I>R</I>. <I>capsulatus</I> wild type and 75 days with <I>R</I>. <I>capsulatus hup<SUP>−</SUP></I> in outdoor conditions during summer 2009, in Ankara Turkey. The maximum hydrogen yield obtained using <I>R. capsulatus hup-</I> was 78% (of the theoretical maximum) and the maximum hydrogen productivity was 0.67 mmol H<SUB>2</SUB>/L<SUB>c</SUB>.h. The maximum hydrogen productivity and yield of the wild type strain on the molasses dark fermentation effluents were 0.50 mmol H<SUB>2</SUB>/L<SUB>c</SUB>.h and 50%, respectively. The changes in climatic conditions, particularly daily global solar radiation, affected the hydrogen productivity and yield.</P>