Converting developing and mature sugarcane carbohydrates into ethanol

Abstract Experiments were performed employing cane particles obtained from sugarcane at different growth stages until maturation measuring the amount of ethanol produced and the carbohydrate consumption in order to estimate the sugarcane growth stage where both parameters were optimized. Two non‐flowering commercial cane varieties NA56 and PR752002 were cultivated and samples taken at different time intervals. Two Saccharomyces cerevisae strains were also compared in the trials. Sucrose was poorly consumed in young cane, which was an unexpected result. Fructose on the other hand was the hexose that remained in the medium at the end of the fermentations specially when using mature sugarcane. There was an increasing trend in ethanol production as a function of days after planting (DAP) as expected; however, a plateau was reached after 225 DAP and the maximum value obtained was between 300 and 325 DAP. When these figures were compared with the corresponding DAP used for sugar production, only 25 days less were needed in the field for maximum ethanol production. On the other hand, it was clear from the data that cane harvesting for ethanol production should not be done after the recommended DAP for commercial sugar production. If this is done, the excess fructose present will not be completely utilized by yeast. Finally, it was observed that the yeast with more affinity for sugarcane fibers showed better ethanol yields in all samples tested.