Controlled gas environments in industrial fermentations

The gas environment is of major importance in controlling aerobic fermentation processes for the manufacture of microbial products. Oxygen and carbon dioxide levels in gas-liquid equilibria affect productivity and energy consumption in such processes and appear to be implicated in the regulation of microbial metabolism. Gas-liquid transfer has been intensively studied by many investigators for Newtonian and non-Newtonian fluids, primarily in terms of oxygen-limitation in biomass and product formation. More recentreports show that microbial growth and product formation are affected by levels of oxygen and carbon dioxide in the gas environment, suggesting that microbial metabolism may be directed towards specific products by the control of such environments. High product concentrations may also be obtained by solid substrate fermentations with mycelial organisms cultured on semi-solid agricultural products at low moisture contents. Such methods are commonly used in the Orient for the manufacture of enzymes and traditional fermented foods and could probably be extended to other microbial products. This review covers fundamental aspects of engineering research in microbial processes that suggest applications for controlled gas environments in submerged culture and solid substrate fermentations of potential industrial interest.