Syngas biomethanation using trickle bed reactor, impact of external hydrogen addition at high loading rate

Syngas biomethanation represents a promising pathway to convert recalcitrant feedstocks into biomethane. However, the hydrogen (H₂) content in syngas is often insufficient or fluctuates, which affects the overall performance. This study evaluated the effect of H₂ addition on syngas conversion efficiency and microbial community dynamics using two trickle bed reactors (TBRs). One TBR was fed with syngas, while another received syngas supplemented with H₂. Both TBRs demonstrated the feasibility of converting CO from syngas to methane, with the H₂ supplemented TBR outperforming the syngas-only TBR. The H₂ supplemented TBR achieved over 90 % conversion rate at a gas loading rate of 15 NL/L_reactor/d and reached peak methane production at a gas loading rate at 20 NL/L_reactor/d. Microbial community structure analysis revealed a dominance of Methanobacterium, a known thermophilic hydrogenotrophic methanogen. Although H₂ addition enhanced performance, a decline in conversion efficiency at higher gas loading rates highlights the need for further optimization.