Dark fermentation of organic biomass, ie agricultural residues, agro-industrial wastes and
organic municipal waste is a promising technology for producing renewable biohydrogen. In …

Waste organic biomass is regarded as the most suitable renewable source for conversion to
produce biofuels and biochemicals. Owing to its high‐energy potential and abundancy …

Microorganisms capable of producing hydrogen are widely present in natural habitat, such
as sludge, compost, soil, sediments, leachate and organic wastes and so on. A variety of …

Butyrate is a common fatty acid produced in important fermentative systems, such as the
human/animal gut and other H2 production systems. Despite its importance, there is little …

Green and clean hydrogen production has become a significant focus in recent years to
achieve sustainable renewable energy fuel needs. Biohydrogen production through the dark …

Dark fermentation, also known as acidogenesis, involves the transformation of a wide range
of organic substrates into a mixture of products, eg acetic acid, butyric acid and hydrogen …

The present manuscript highlights the economic profit increase when combining organic
waste anaerobic digestion with other mixed culture anaerobic fermentation technologies, eg …

Anaerobic digestion of organic residual streams can be directed to produce carboxylates
such as acetate, propionate, and n-butyrate, which can be either directly used in industry or …

Economic feasibility is important for the development of microalgae bioenergy industry. Dark
fermentation of microalgal residue in a biorefinery context can improve the energy …

Food waste landfilling causes environmental degradation, and this work assesses a
sustainable food valorization technique. In this study, food waste is converted into lactic acid …