Background Enzymatic treatment of lignocellulosic material for increased biogas production
has so far focused on pretreatment methods. However, often combinations of enzymes and …

Biological pretreatment is a promising technology to increase biogas yield. The methane
yield and microbial community resulting from anaerobic digestion of maize straw after …

The rapid depletion of natural resources and the environmental concerns associated with
the use of fossil fuels as the main source of global energy is leading to an increased interest …

Anaerobic digestion of lignocellulosic wastes is limited by inefficient hydrolysis of recalcitrant
substrates, leading to low biogas yield. In this study, the potential of a lignocellulolytic …

Biogas obtained from organic remains entails a developed technology and an appreciable
methane yield, but its use may not be sustainable. The potential methane yield of various …

A successful biogas production process depends upon adequate hydrolysis of
macromolecules in the substrate and stable further conversion. The complex and rigid …

Methane production through anaerobic digestion of lignocellulosic substrates, as renewable
energy source, can offer a potential to replace energy produced from fossil fuels. However …

The aims were to quantify the effects of applying fibrolytic enzymes at ensiling on
conservation characteristics and specific methane (CH 4) yields (SMY) per unit mass, and …

Modern society is characterised by its outstanding capacity to generate waste.
Lignocellulosic biomass is most abundant in nature and is biorenewable and contains …

Lignocellulosic biomass is the most abundant natural resource with high biomethane
potential. However, complex structure of lignocellulosic biomass has hampered the efficient …