Electrodialysis, an electrochemical membrane technique, was found to prolong and enhance the production of biohydrogen and purified organic acids via the anaerobic fermentation of glucose by Escherichia coli. Through the design of a model electrodialysis medium using cationic buffer, pH was precisely controlled electrokinetically, i.e. by the regulated extraction of acidic products with coulomb...

Pure strains of Purple Non-Sulfur (PNS) bacteria: Rhodobacter sphaeroides strain O.U 001 was studied for its efficiency to produce biohydrogen using the photofermentative pathways. An annular photobioreactor was being designed aiming the uniform light distribution. In prototype annular photobioreactor, at an initial pH of 6.8±0.2, temperature 32 ± 2 ◦C, inoculum volume 10% (v/v), inoculum age o...

The effects of TiO2 photocatalysis on the hydrolysis of protein of waste activated sludge (WAS) and its biodegradability were investigated in this study. After 12-h UV irradiation, the removal ratio of protein by TiO2 photocatalysis reached 98.1%. The optimal condition for photocatalytic degradation of protein is TiO2 dosage of 5.0 mg·L under 2.4 w·m UV light irradiation. TiO2 photocatalysis in...

Bio-pretreatment using a fungal consortium to enhance the efficiency of lignocellulosic biohydrogen production was explored. A fungal consortium comprised of T. viride and P. chrysosporium as microbial inoculum was compared with untreated and single-species-inoculated samples. Fungal bio-pretreatment was carried out at atmospheric conditions with limited external energy input. The effectiveness...

Fermentative biohydrogen production has been flagged as a future alternative energy source due to its various socio-economical benefits. Currently, its production is hindered by the low yield. In this work, modelling and optimization of fermentative biohydrogen producing operational setpoint conditions was carried out. A box-behnken design was used to generate twenty-nine batch experiments. The...

Biohydrogen production from wastewater is a new, low cost, sustainable energy development. In this study, dark fermentation, as type of biological biohydrogen, was carried out using NiFe2O4 nanoparticle catalysts. Implementing the Central Composite Design model, operational parameters including temperature, pH, and dosage were optimized. According to spectroscopic microscopic analyses, nanopart...

Substitution of fossil fuels with alternative energy carriers has become necessary due to climate change and fossil fuel shortages. Fermentation as a way of producing biohydrogen, an attractive and environmentally friendly future energy carrier, has captured received increasing attention in recent years because of its high H2 production rate and a variety of readily available waste substrates u...

This paper offers an algorithm to account for potential actions on the efficient production of renewable energy. The consists a substantiated choice certain type energy, evaluation its potential, and regulation processes obtaining that Also, resources agricultural biofuel have been analyzed it has determined there is real biomass in Lithuania. It will thus be beneficial make appropriate manager...

Biohydrogen production based on agro-industrial wastes might be an attractive and effective technology for providing energy source in the future. Dark fermentation is considered to one of most suitable biohydrogen formation processes. In this paper, various as well microorganisms applied are reviewed.