Long-term operation of high rate algal ponds for the bioremediation of piggery wastewaters at high loading rates

Abstract

The performance of two 464-L high rate algal ponds (HRAPs) treating 20- and 10-folds diluted swine manure at 10 days of hydraulic residence time was evaluated under continental climatic conditions in Castilla y Leon (Spain) from January to October. Under optimum environmental conditions (from July to September), both HRAPs supported a stable and efficient carbon and nitrogen oxidation performance, with average COD and TKN removal efficiencies of 76 ± 11% and 88 ± 6%, respectively, and biomass productivities ranging from 21 to 28 g/m 2 d. Nitrification was identified as the main TKN removal mechanism at dissolved oxygen concentrations higher than 2 mg/L (accounting for 80–86% of the TKN removed from January to May and for 54% from July to September). On the other hand, empirical evidences of a simultaneous nitrification–denitrification process were found at dissolved oxygen concentrations lower than 0.5 mg/L (high organic loading rates). However, despite the achievement of excellent COD and nitrogen oxidation performance, phosphorous removal efficiencies lower than 10% were recorded in both HRAPs probably due to the high buffer capacity of the piggery wastewater treated (absence of abiotic pH-mediated PO 4 3 - precipitation). Finally, a detailed monitorization of the dynamics of microalgae population revealed that the combination of moderate temperatures/solar irradiances and high organic loading rates, prevailing during late spring and summer, supported higher microalgae diversities than those found during winter conditions.