Study of the impact of aerobic pretreatment on anaerobic digestion of food waste

Given the strong incentive to source separation of organic fractions of household waste, the development of anaerobic processes on a small scale (10 to 100 t of waste per year) could see significant growth. However, to validate this scale of operation, stability and efficiency of the treatment process will represent crucial issues. Concerning anaerobic processes, the hydrolysis step is the limiting step for two reasons. First, due to relatively slow kinetics, non-uniform degradation of structural carbohydrates (e.g. cellulose) may be produced. On the other hand, the rapid transformation of easy biodegradable compounds produces a rapid production of volatile fatty acids, which may lead to their accumulation, inhibiting the methanogenic activity. To overcome the problems associated with the hydrolysis step, many studies have been conducted on the mechanical, thermal or chemical pre-treatment of the organic matter introduced into the digesters. In comparison, the use of an aerobic biological pre-stage has been relatively less studied. Aerobic degradation can indeed eliminate more biodegradable fractions to reduce the risk of acidosis in the digester and enhance the degradation of some recalcitrant organic fraction. However the duration of the aerobic treatment should be well managed not to oxidize excessively the methanogenic potential of the pre-treated organic waste. The aim of the thesis was be to validate the effectiveness of a pre-treatment to improve the anaerobic digestion of food waste and to suggest the best ways to implement this pre-treatment.