Abstract
Several studies have been carried out to produce biofuels by anaerobic digestion of stillage from ethanol fermentation. This type of process, known as ABE Fermentation, generates by-products such as acetone, butanol and ethanol. This fermentation can use pure or mixed cultures of anaerobic bacteria, mainly of the genus Clostridium. In this context, there is the need for deeper studies for proper disposal of the residue resulting from Anaerobic Fermentation of ethanolic stillage, hereinafter referred to as AF stillage (stillage from Anaerobic Fermentation), obtained after this fermentation. Thus, the aim of this study was to evaluate the biodegradation and toxicity of stillage from Anaerobic Fermentation. The biodegradation of AF stillage in soil samples in the presence and absence of commercial inoculum was evaluated using a respirometric method described by Bartha & Pramer, according to the standard NBR 14283 (ABNT, 1999). The production of CO2 was evaluated for 57 days. Additionally, quantification of microorganisms was carried out at the beginning and end of the experiment. Toxicity tests were performed with the microcrustacean Daphnia similis using raw AF stillage and leachate from the respirometry test, according to the standard NBR 12713 (ABNT, 2009). The results of the respirometry test showed that, after 13 days of incubation, the biodegradation efficiency of all samples was above 30%. Using the Friedman statistical test, results showed that adding the inoculum caused no statistically significant difference in the biodegradation of AF stillage. The acute toxicity tests were performed on raw AF stillage and on the leachates showed that toxicity was removed after biodegradation in soil at all concentrations used. Thus, discharge of AF stillage into soil is an alternative viable disposal. Key words: Biodegradation, stillage, anaerobic fermentation, toxicity.
Highlights
Taking into account that ethanol production in Brazil in 2015/2016 was 30.5 billion liters, the production of ethanol stillage was 305 billion liters
It was observed that microbial activity was not affected by the addition of Anaerobic fermentation (AF) stillage, since the amount of cumulative CO2 increased as the concentration of residue (AF stillage) increased (Figure 1)
The results showed acute toxicity, with an EC50 of 9.10% and approximately 11 toxic units (TU) for the raw AF stillage studied (Table 6)
Summary
Taking into account that ethanol production in Brazil in 2015/2016 was 30.5 billion liters, the production of ethanol stillage was 305 billion liters. Stillage presents increased turbidity and low pH, with high levels of organic matter, potassium and calcium, and moderate amounts of nitrogen and phosphorus (Ferraz et al, 1986; Rodella et al, 1983; Tauk, 1987; Gómez and Rodriguez, 2000). According to Fuess and Garcia (2014), currently, almost the whole volume of stillage generated in Brazilian distilleries is directed to the fertigation of sugarcane fields, due to its fertilizer character. Long-term intensive application of stillage can increase soil salinity (Corazza, 1999), affect sugarcane quality, and contaminate groundwater (Gonçalves and Silva, 2000). According to Freire and Cortez (2000), stillage can present high levels of chemical oxygen demand (COD) and biochemical oxygen demand (BOD), reaching values up to 210.000 and 100.000 mg∙L-1, respectively
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