Lignocellulosic biomass is an abundant resource with untapped potential for biofuel,
enzymes, and chemical production. Its complex recalcitrant structure obstructs its …

Increasing global demand for green energy has necessitated more research interest in
anaerobic digestion. Due to the dual benefits of anaerobic digestion, in organic waste …

The rumen of ruminants is a natural anaerobic fermentation system that efficiently degrades
lignocellulosic biomass and mainly depends on synergistic interactions between multiple …

Lignocellulosic biomass (LCB) is increasingly acknowledged as a pivotal substrate for
generating sustainable bioenergy via anaerobic digestion (AD). However, the limited …

Anaerobic digestion (AD) is considered as the best route to utilise the bio-energy potential of
rice straw (RS). However, the excessive lignocellulosic content of RS curbs the biomethane …

Acidification is a key technical problem in the dry anaerobic digestion system. The effect of
bioaugmentation of butyric-resistant microorganisms (BRM) on an unstable acidified …

Anaerobic fungi (Neocallimastigomycota) are promising lignocellulose-degrading
microorganisms that can be exploited by the biofuel industry. While natural production of …

The organic wastes and residues generated from agricultural, industrial, and domestic
activities have the potential to be converted to bioenergy. One such energy is biogas, which …

The recalcitrance and physiochemical complexity of lignocellulosic biomass limit its
hydrolysis and subsequent anaerobic digestion to produce biomethane. Restricted …

Anaerobic fungi, though low in abundance in rumen, play an important role in the
degradation of forage for herbivores. When only anaerobic fungi exist in the fermentation …