초록
<P><B>Abstract</B></P><P>Fermentation is one of the most critical steps of the fuel ethanol production and it is directly influenced by the fermentation system, selected yeast, and bacterial contamination, especially from the genus <I>Lactobacillus</I>. To control the contamination, the industry applies antibiotics and biocides; however, these substances can result in an increased cost and environmental problems. The use of the acid treatment of cells (water‐diluted sulphuric acid, adjusted to pH 2·0–2·5) between the fermentation cycles is not always effective to combat the bacterial contamination. In this context, this study aimed to evaluate the effect of ethanol addition to the acid treatment to control the bacterial growth in a fed‐batch system with cell recycling, using the industrial yeast strain <I>Saccharomyces cerevisiae</I> PE–2. When only the acid treatment was used, the population of <I>Lactobacillus fermentum</I> had a 3‐log reduction at the end of the sixth fermentation cycle; however, when 5% of ethanol was added to the acid solution, the viability of the bacterium was completely lost even after the first round of cell treatment. The acid treatment +5% ethanol was able to kill <I>L. fermentum</I> cells without affecting the ethanol yield and with a low residual sugar concentration in the fermented must.</P><P><B>Significance and Impact of the Study</B></P><P>In Brazilian ethanol‐producing industry, water‐diluted sulphuric acid is used to treat the cell mass at low pH (2·0) between the fermentative cycles. This procedure reduces the number of <I>Lactobacillus fermentum</I> from 10<SUP>7</SUP> to 10<SUP>4</SUP> CFU per ml. However, the addition of 5% ethanol to the acid treatment causes the complete loss of bacterial cell viability in fed‐batch fermentation with six cell recycles. The ethanol yield and yeast cell viability are not affected. These data indicate the feasibility of adding ethanol to the acid solution replacing the antibiotic use, offering a low cost and a low amount of residue in the biomass.</P>