[HTML][HTML] Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
N Wongfaed - Scientific Reports, 2023 - ui.adsabs.harvard.edu
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
N Wongfaed, S O-Thong, S Sittijunda… - Scientific …, 2023 - europepmc.org
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production.
N Wongfaed, S Sittijunda, A Reungsang - Scientific Reports, 2023 - search.ebscohost.com
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
N Wongfaed, O Sompong, S Sittijunda… - Scientific …, 2023 - pubmed.ncbi.nlm.nih.gov
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
N Wongfaed, O Sompong, S Sittijunda… - Scientific …, 2023 - mahidol.elsevierpure.com
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
[HTML][HTML] Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production
N Wongfaed, O Sompong, S Sittijunda… - Scientific …, 2023 - ncbi.nlm.nih.gov
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
Taxonomic and enzymatic basis of the cellulolytic microbial consortium KKU-MC1 and its application in enhancing biomethane production.
N Wongfaed, S O-Thong, S Sittijunda… - Scientific …, 2023 - europepmc.org
Lignocellulosic biomass is a promising substrate for biogas production. However, its
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …
recalcitrant structure limits conversion efficiency. This study aims to design a microbial …