Efficient caproic acid production from lignocellulosic biomass by bio-augmented mixed microorganisms
T Liu, J Li, X Hao, J Meng - Bioresource Technology, 2024 - Elsevier
Producing caproic acid via carboxylate platform is an environmentally-friendly approach for
treating lignocellulosic agricultural waste. However, its implementation is still challenged by …
treating lignocellulosic agricultural waste. However, its implementation is still challenged by …
Caproic acid production from food waste using indigenous microbiota: Performance and mechanisms
J Tang, H Yang, Y Pu, Y Hu, J Huang, N Jin, X He… - Bioresource …, 2023 - Elsevier
Caproic acid (CA) production from food waste (FW) is a promising way for waste recycling,
while the fermentation processes need further exploration. In this study, FW acidogenic …
while the fermentation processes need further exploration. In this study, FW acidogenic …
Performance and microbial characterization of two-stage caproate fermentation from fruit and vegetable waste via anaerobic microbial consortia
J Yu, Z Huang, P Wu, M Zhao, H Miao, C Liu… - Bioresource …, 2019 - Elsevier
The regulation of two-stage caproate fermentation from fruit and vegetable waste (FVW) via
anaerobic microbial consortia was investigated in this study. The results showed the highest …
anaerobic microbial consortia was investigated in this study. The results showed the highest …
Caproic acid production from anaerobic fermentation of organic waste-Pathways and microbial perspective
W Dong, Y Yang, C Liu, J Zhang, J Pan, L Luo… - … and Sustainable Energy …, 2023 - Elsevier
This review aims to provide a holistic synopsis of the current state of the art knowledge on
caproic acid production via anaerobic fermentation from the perspectives of microbes and …
caproic acid production via anaerobic fermentation from the perspectives of microbes and …
Elevated caproic acid production from one-stage anaerobic fermentation of organic waste and its selective recovery by electro-membrane process
W Zhao, H Jiang, W Dong, Q Liang, B Yan… - Bioresource …, 2024 - Elsevier
A constructed microbial consortia-based strategy to enhance caproic acid production from
one-stage mixed-fermentation of glucose was developed, which incubated with acidogens …
one-stage mixed-fermentation of glucose was developed, which incubated with acidogens …
Bioaugmentation with Clostridium tyrobutyricum to improve butyric acid production through direct rice straw bioconversion
X Chi, J Li, X Wang, Y Zhang, SY Leu, Y Wang - Bioresource Technology, 2018 - Elsevier
One-pot bioconversion is an economically attractive biorefinery strategy to reduce enzyme
consumption. Direct conversion of lignocellulosic biomass for butyric acid production is still …
consumption. Direct conversion of lignocellulosic biomass for butyric acid production is still …
[HTML][HTML] Development of an enhanced chain elongation process for caproic acid production from waste-derived lactic acid and butyric acid
Medium chain carboxylic acids (MCCA), such as caproic acid, are high-value chemicals with
many industrial applications. The development of a biological mixed culture chain …
many industrial applications. The development of a biological mixed culture chain …
Caproate production from xylose via the fatty acid biosynthesis pathway by genus Caproiciproducens dominated mixed culture fermentation
J Tang, K Dai, QT Wang, SJ Zheng, SD Hong… - Bioresource …, 2022 - Elsevier
Caproate production from organic wastes is deemed as a novel strategy in mixed culture
fermtation (MCF). However, producing caproate from natural sugar of xylose by MCF is …
fermtation (MCF). However, producing caproate from natural sugar of xylose by MCF is …
Upgrading lignocellulosic ethanol for caproate production via chain elongation fermentation
Chain elongation is a promising mixed culture bioprocess to convert acetate into medium
chain carboxylates with ethanol as an electron donor. Caproate production using …
chain carboxylates with ethanol as an electron donor. Caproate production using …
Exploiting the real wastewater potential for resource recovery–n-caproate production from acid whey
A Duber, L Jaroszynski, R Zagrodnik… - Green …, 2018 - pubs.rsc.org
In light of an increasing demand for energy and sustainable development, bioenergy
production is a must. A carboxylate platform-based bioprocess now enables the conversion …
production is a must. A carboxylate platform-based bioprocess now enables the conversion …