This study investigated the effects of the light conditions on the productivity of scenedesmus dimorphus in the continuous mass cultivation system. To compare the algal productivity according to the light conditions, S. dimorphus was cultivated continuously under the wide range of light intensity(200-600 PPFD) and various light wavelength(white light and red-blue mixed light). After 100 days of cultivation under the different light intensity, the productivity of S. dimorphus increased as light intensity decreased. So, the productivity was maximized as 100 mg/L/d when light intensity was 200 PPFD. In case of light wavelength, the productivity of S. dimorphus was enhanced about 20% with the white light compared to that of the red-blue mixed light. Consequently, the optimal light conditions for the continuous mass cultivation of S. dimorphus were 200 PPFD as light intensity and white light as light wavelength.

There is about 80% organic acid in the Food wastes leachate and organic acid can be used as organic carbon source for mixotrophic microalgae. The mixotrophic cultivation is that the combination of autotrophic and heterotrophic cultivation, where inorganic and organic carbon sources are used in their methabolism simultaneously. Therefore, this study investigated the effect of various organic acid on the microalgae when Food wastes leachate treatment. Chlorella vulgaris was used in this study, also NaHCO3 is supplied at all conditions as inorganic carbon source. In order to see the effect of organic carbon sources centrally, the carbon source conditions was set in 5 conditions - glucose known to have excellent effectiveness to increase of biomass productivity 1500 mg-COD/L, acetate 1500 mg-COD/L, isobutyrate 1500 mg-COD/L, propionate 1500mg-COD/L and the mixed organic acid (acetate, isobutyrate, propionate each 500 mg-COD/L). This study evaluated final biomass production, consumption of organic carbon, and N,P removal. In the result, the final biomass productivity by using glucose, acetate and isobutyrate is the highest level, followed by mixed organic acid and propionate. This is same aspect in N,P removal; the more rapid growth rate is, the more rapid N,P removal rate is. In the view of consumption of organic carbon, acetate make best use among organic acid.

This study aims to increase the organic carbon, nitrogen and phosphorus removal efficiencies than the conventional method and meet higher effluent water quality standards by co-culture with bacteria in activated sludge in the aeration tank. By the co-culture in mixotrophic conditions through metabolic characterization of Scenedesmus dimorphus and bacteria in the aeration activated sludge, assessed how the impact on the organic matter, nitrogen and phosphorus removal rate. In addition, the study was to determine if it is possible to supply the oxygen necessary for the bacteria through the photosynthesis of algae without aeration. To test the synergistic effects of the co-culture, we compared co culture with S. dimorphus - only, Bacteria - only as a controls. In the co-culture condition inoculation ratio is based on the TSS concentration S. dimorphus and bacteria 1 : 5 (w / w), 5 : 5 (w / w) at a ratio. The growth rate of S. dimorphus - only condition was higher, which was 10 times and 2 times lower compared to B : A (5 : 1), B : A (5 : 5) respectively. Organic carbon removal rate of S. dimorphus - only condition was lower than other conditions, the remaining conditions were consumed at a similar rate. In the co-culture of Mixed bacteria and S. dimorphus, ammonium and phosphate removal rate has been high. But, nitrate removal rate showed a tendency to decrease compared to the Bacteria-only condition. When considering the Ammonium, nitrate and phosphate removal rate, N, P removal efficiency which is most excellent in terms of bacteria, such as S. dimorphus ratio (5 : 5) were co-cultured in the conditions. DO was maintained at 3 mg/L or more under all conditions. So, implying co-culture has the potential to decrease aeration costs.