DiscussionThe degradation of the wa

Discussion

The degradation of the waste, as expected, took place faster in the reactor with the waste after initial aerobic stabilization. Unstable and stable methane fermentation began in the ST reactor at weeks 13 and 25 of the study, while in the reactor of unprocessed waste, it began at weeks 17 and 44 (Figs. 3 and 4). As presented in Table 2, changes in the chemical composition of the leachate from the biologically treated and untreated waste confirmed that the initial aerobic treatment of waste before storage helps to reduce the emissions of concentrations of organic pollutants in leachate and methane production, as well as to establish stable methane conditions more quickly [14].
The studies showed that the average concentrations of COD and VFA, during the phases of hydrolysis, acid, and unstable methane fermentation, in the leachate from aerobic treated waste were higher than in the leachate from untreated waste, and in the stable methane fermentation phase, they were significantly lower. It was also found that the unstable phase of fermentation, characterized by an intense decrease in organic matter and increase in methane production, began in the ST reactor about 4 weeks earlier than in the MSW reactor. This confirms that the aerobic treatment of waste prior to its anaerobic stabilization accelerates the growth of methane bacteria. Faster establishment of the conditions of methane in the reactor of waste after pretreatment was the result of the removal of organic matter susceptible to biodegradation from waste during aerobic decomposition prior to anaerobic stabilization. On the other hand, the high methane production observed in the stable phase of methane fermentation in the ST reactor indicates a partial breakdown of the complex organic substances that are difficult to degrade, which remain after initial aerobic treatment. The dominant organic components in the waste are: cellulose 50 %, lignin 15 %, hemicellulose 10 %, protein 5 %, and starch, pectin, and other soluble sugars [14]. The main sources of carbon, used by methane microorganisms, are cellulose and hemicellulose, which are classified as materials that are difficult to degrade under anaerobic conditions. Aerobic processing of these complex organic substances prior to anaerobic decomposition leads to the degradation of these complex organic components to form easily available methane-producing microorganisms [22]. The increased activity of methane bacteria can be identified by a sharp decrease in the concentration of organic matter in leachate and the relatively high methane production [23]. Figure 5 shows the total loads of pollutants removed from the MSW and ST waste during the study. Initial aerobic waste treatment reduces the potential of the waste for the emission of contaminants that can be washed from it during landfilling. A significant effect of aerobic waste is to reduce the concentrations and loads of organic pollutants in leachate and the emissions of methane production from the waste after aerobic pretreatment (Figs. 3, 4, and 5). The average concentrations of COD and VFA in the leachate from aerobic pretreated waste and the total methane production determined in the whole study period were lower than in the untreated waste by, respectively, 9, 22, and 12 % (Table 2).