(331c) Production of High-Value Medium-Chain Fatty Acids from Cellulosic Biomass Via Mixed-Culture Fermentation | AIChE

(331c) Production of High-Value Medium-Chain Fatty Acids from Cellulosic Biomass Via Mixed-Culture Fermentation

Authors 

Lonkar, S. - Presenter, Texas A & M university
Holtzapple, M. - Presenter, Texas A&M University

To create sustainable system and reduce the dependency on fossil fuels, it is important to produce chemicals and fuels from renewable sources. Carboxylate platform can produce short and medium-chain fatty acids in inexpensive way, which can be further converted into fuels and chemicals. Medium-chain fatty acids (MCFA, e.g., valeric, caproic, heptanoic, caprylic acid) are more valuable than short-chain fatty acids (SCFA, e.g., acetic, propionic, butyric acid). SCFAs are major products in methane-inhibited mixed-culture anaerobic fermentation. By feeding ethanol to the fermentor, MCFA formation is enhanced through chain elongation. Microorganisms such as Clostridium kluyveri elongate short-chain acids by combining them with ethanol. To maximize MCFA production, effect of ethanol concentration and temperature were investigated in the mixed-culture fermentation. At 10 g/L ethanol concentration, 13.3 g/L MCFA was formed and caproic acid was the major product (approximately 10 g/L). At low temperatures (≤40 °C), chain elongation is favored and does not occur at 55 °C. Based on these results, a process strategy is proposed to maximize the MCFA production.