By U.S. Water
A case study of U.S. Water’s Proclean AB 1000 and its use in optimization of an ethanol producer’s fermentation process, with
|
Live Prop Drop
|
Bud Prop Drop
|
|
Dead Prop Drop
|
% Bud Prop Drop
|
% V Prop Drop
|
Pre-trial
|
227
|
35
|
|
29
|
16
|
89
|
Trial 0.7 ppm
|
225
|
36
|
|
31
|
17
|
88
|
Trial 0.6 ppm
|
213
|
32
|
|
24
|
16
|
90
|
Lactic acid is produced by bacteria and inhibits the yeast population, ultimately affecting ethanol yields. High levels of lactic acid indicate high levels of bacteria. The industry threshold for lactic acid level is below 0.2% w/v. Figure 2 shows the varying levels of backset and lactic acid throughout the trial process. Pre-trial data and 0.7 ppm trial data had more variances in the backset levels than did the .6 ppm trial data. This demonstrates that there were process variances through a portion of the trial time frame. Once the process variances were removed and the backset levels became more stable, the lactic acid levels were also stabilized and below the threshold, indicating better control of bacteria growth. Reducing lactic acid production also reduces the recycled lactic acid levels in the backset to provide a better fermentation environment for the yeast population.
Overall, fermentation kinetics remained steady between the pre-trial, 0.7 ppm and 0.6 ppm data as cell counts and viability percentages were within industry standards. U.S. Water’s ProClean AB 1000 did perform better than the competitor’s antibiotic for lactic acid control, and when treated with .6 ppm in the fermentor, ethanol production was the highest and lactic acid levels were the lowest (Figure 3).