There is a large, unutilised energy potential in agricultural waste fractions. In this pilotscale

study, the efficiency of a simple two-stage anaerobic digestion process was

investigated for stabilisation and biomethanation of solid potato waste and sugar beet

leaves, both separately and in co-digestion. A good phase separation between hydrolysis/

acidification and methanogenesis was achieved, as indicated by the high carbon dioxide

production, high volatile fatty acid concentration and low pH in the acidogenic reactors.

Digestion of the individual substrates gave gross energy yields of 2.1–3.4 kWh/kg VS in the

form of methane. Co-digestion, however, gave up to 60% higher methane yield, indicating

that co-digestion resulted in improved methane production due to the positive synergism

established in the digestion liquor. The integrity of the methane filters (MFs) was

maintained throughout the period of operation, producing biogas with 60–78% methane

content. A stable effluent pH showed that the methanogenic reactors had good ability to

withstand the variations in load and volatile fatty acid concentrations that occurred in the

two-stage process. The results of this pilot-scale study show that the two-stage anaerobic

digestion system is suitable for effective conversion of semi-solid agricultural residues as

potato waste and sugar beet leaves.