Hydrogen photo-evolution by Rhodopseudomonas palustris 6A using pre-treated olive mill wastewater and a synthetic medium containing sugars
Academic Article
Publication Date:
2015
abstract:
Increasing costs of petroleum, associated with the escalating problems of global climate change, require
always greater efforts in order to produce an energy carrier as bioH2. In this study, bioH2 production using
photofermentative process was investigated. Two culture broths were used: (a) a synthetic medium rich
in sugars (glucose and fructose) and (b) a pre-treated fresh olive-mill wastewater (OMWF) diluted with
water (30%, v:v). The pre-treatment was carried out using two different vegetable matrices (dry-Azolla
and granular active carbon) to decrease both the content of polyphenols and the dark colour of wastewater.
Rhodopseudomonas palustris 6A isolated from soil spread with OMW was utilized for batch growth
experiments, carried out indoors under continuous light (200 lE/m2/s). When synthetic medium was
used, the culture mixing was performed using either (i) a magnetic stir bar, and (ii) an impeller equipped
with five turbines. The latter system made it possible to increase the bioH2 photo-evolution by 1.4 times.
The specific hydrogen photo-evolution rate was 13.5 mL/g(dw)/h in the broth containing diluted OMWF
and 11.8 mL/g(dw)/h in the synthetic medium containing sugars (glucose and fructose).
always greater efforts in order to produce an energy carrier as bioH2. In this study, bioH2 production using
photofermentative process was investigated. Two culture broths were used: (a) a synthetic medium rich
in sugars (glucose and fructose) and (b) a pre-treated fresh olive-mill wastewater (OMWF) diluted with
water (30%, v:v). The pre-treatment was carried out using two different vegetable matrices (dry-Azolla
and granular active carbon) to decrease both the content of polyphenols and the dark colour of wastewater.
Rhodopseudomonas palustris 6A isolated from soil spread with OMW was utilized for batch growth
experiments, carried out indoors under continuous light (200 lE/m2/s). When synthetic medium was
used, the culture mixing was performed using either (i) a magnetic stir bar, and (ii) an impeller equipped
with five turbines. The latter system made it possible to increase the bioH2 photo-evolution by 1.4 times.
The specific hydrogen photo-evolution rate was 13.5 mL/g(dw)/h in the broth containing diluted OMWF
and 11.8 mL/g(dw)/h in the synthetic medium containing sugars (glucose and fructose).
Iris type:
01.01 Articolo in rivista
Keywords:
Olive mill wastewater; Photofermentative process; Hydrogen photo-evolution; Low-cost feedstock; Rhodopseudomonas palustris; Oxidation-reduction potential
List of contributors:
Padovani, Giulia; Ena, Alba; Giovannelli, Alessio; Pintucci, Cristina; Pushparaj, Benjamin; Traversi, MARIA LAURA; Carlozzi, PIETRO MARIO
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