Energetic evaluation of wastewater treatment using microalgae, Chlorella vulgaris

“…The biomass’ carbon/nitrogen ratio and biochemical methane potential were also characterized. The experiments were designed for 4 days, since previous literature data indicated that C. vulgaris entered stationary growth phase by the 4th–5th day, no significant biomass production could be observed thereafter ( Mujtaba et al, 2015 , 2017 ; Otondo et al, 2018 ; Qi et al, 2018 ) ( Supplementary Information ).…”

“…It was observed that microalgal growth rate is affected by the pH as pH affects the availability of inorganic carbon. When pH is around or over 10, CO 2 is limiting and bicarbonate is used as a carbon source (Otondo et al, 2018). The pH is slightly increased during the microalgal-bacterial biomass generation in all type of liquid wastes indicating effective photosynthetic activity of microalgae.…”

“…A number of studies examined municipal wastewater treatment efficiency using Chlorella-bacteria mixed cultures (Mujtaba et al, 2015;Otondo et al, 2018). More efficient nutrient removal was observed from settled domestic wastewater compared to the commonly used activated sewage process, which indicated the potential of microalgae in the activated sludge process potentially as a secondary step for further nutrient reduction and concomitant biomass production (Otondo et al, 2018). Besides, CO 2 originated from the degradation of carbonaceous matter in an activated sludge process is released freely into the atmosphere, thus promoting GHG accumulation.…”

“…This inexpensive and environment-friendly system can contribute to the sustainable management of water resources ( Liu J. et al, 2017 ; Qi et al, 2018 ). The green microalgae Chlorella vulgaris is the most investigated eukaryotic algae species in wastewater treatment ( Chiu et al, 2015 ; Otondo et al, 2018 ; Shetty et al, 2019 ). C. vulgaris is a common eukaryotic microalgae species found in various natural and engineered freshwater and soil habitats.…”

Chlorella vulgaris and Its Phycosphere in Wastewater: Microalgae-Bacteria Interactions During Nutrient Removal

“…The biomass’ carbon/nitrogen ratio and biochemical methane potential were also characterized. The experiments were designed for 4 days, since previous literature data indicated that C. vulgaris entered stationary growth phase by the 4th–5th day, no significant biomass production could be observed thereafter ( Mujtaba et al, 2015 , 2017 ; Otondo et al, 2018 ; Qi et al, 2018 ) ( Supplementary Information ).…”

“…It was observed that microalgal growth rate is affected by the pH as pH affects the availability of inorganic carbon. When pH is around or over 10, CO 2 is limiting and bicarbonate is used as a carbon source (Otondo et al, 2018). The pH is slightly increased during the microalgal-bacterial biomass generation in all type of liquid wastes indicating effective photosynthetic activity of microalgae.…”

“…A number of studies examined municipal wastewater treatment efficiency using Chlorella-bacteria mixed cultures (Mujtaba et al, 2015;Otondo et al, 2018). More efficient nutrient removal was observed from settled domestic wastewater compared to the commonly used activated sewage process, which indicated the potential of microalgae in the activated sludge process potentially as a secondary step for further nutrient reduction and concomitant biomass production (Otondo et al, 2018). Besides, CO 2 originated from the degradation of carbonaceous matter in an activated sludge process is released freely into the atmosphere, thus promoting GHG accumulation.…”

“…This inexpensive and environment-friendly system can contribute to the sustainable management of water resources ( Liu J. et al, 2017 ; Qi et al, 2018 ). The green microalgae Chlorella vulgaris is the most investigated eukaryotic algae species in wastewater treatment ( Chiu et al, 2015 ; Otondo et al, 2018 ; Shetty et al, 2019 ). C. vulgaris is a common eukaryotic microalgae species found in various natural and engineered freshwater and soil habitats.…”

Chlorella vulgaris and Its Phycosphere in Wastewater: Microalgae-Bacteria Interactions During Nutrient Removal

“…The data obtained suggest that microalgae performance in this system did not depend on the time of day when light was applied or the length of the photoperiods, but on the net photon flux. No photoinhibiton was * Constant energy consumption of 0.8 KwhSolar light is the most economical option for outdoor microalgae cultivation [24,39], but variations in the weather, day:night cycles and seasonal changes affect light intensity…”

Effect of light intensity, light duration and photoperiods in the performance of an outdoor photobioreactor for urban wastewater treatment

Advancements in Microbial Fuel Cells Technology