Pablo Álvarez scite author profile

This study evaluates the feasibility of removing nutrients by the microalgae Chlorella vulgaris, using urban wastewater as culture medium, namely the effluent subjected to secondary biological treatment in a wastewater treatment plant (WWTP). For this, laboratory experiments were performed in batch cultures to study the effect of initial nitrogen and phosphorus concentrations on growth and reduction of nutrient performance of C. vulgaris. The microalga was cultivated in enriched wastewater containing different phosphorus (1.3-143.5 mg x L(-1) P.PO4(3-)), ammonium (5.8-226.8 mg x L(-1) N-NH4+) and nitrate (1.5-198.3 mg x L(-1) N-NO3-) concentrations. The nutrient removal and growth kinetics have been studied: maximum productivity of 0.95 g SS x L(-1) x day(-1), minimum yield factor for cells on substrate (Y) of 11.51 g cells x g nitrogen(-1) and 0.04 g cells x g phosphorus(-1) were observed. The results suggested that C. vulgaris has a high potential to reduce nutrients in secondary WWTP effluents.

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Chlorella stigmatophorafor Urban Wastewater Nutrient Removal and CO₂Abatement

Arbib

Ruiz

Álvarez

et al. 2012

International Journal of Phytoremediation

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Batch experiments were performed to study biomass growth rate, nutrient removal and carbon dioxide bio-fixation of the marine microalgae Chlorella stigmatophora. Four different cultures at different salinities were tested: wastewater (WW), synthetic wastewater (SWW), seawater (SW) and diluted seawater (DSW). Experimental results showed that Chlorella stigmatophora grew satisfactorily in all culture media, except in SWW where inhibition occurred. In all cases, biomass experimental data were fitted to the Verlhust Logistic model (R2 > 0.982, p < or = 0.05). Maximum biomass productivity (P(bmax)) and CO2 biofixation (P(vCO2)) were reached in the WW medium, 1.146g SSL(-1)day(-1) and 2.324g CO2L(-1)day(-1) respectively. The order of maximum specific growth rates (micro max) was WW >DSW>SW. In order to compare nitrogen and phosphorous removal kinetics, an estimation of the time required to reach the most restrictive concentration of total N and P in effluents as defined in the Directive 98/1565/CE (10 mg sigmaNL(-1) (T10(N)) and 1 mg sigmaPL(-1) (T1(p)) was performed. In the WW test T10(N) and T1(p) needed were of 45.15 and 32.27 hours respectively and at the end of the experimental the removal was in both 100%.

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Hydroponic Farm Wastewater Treatment Using an Indigenous Consortium

et al. 2021

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Hydroponic farms produce wastewater that need to be treated before being released into the environment. A three-step screening process (microplate, batch, and semi-continuous flasks experiments) initially designed to select an efficient microalgae strain allowed the isolation of a consortium that naturally developed in the hydroponic farm wastewater. During the non-optimized semi-continuous experiments, the best performing microalgae strain, Scenedesmus obliquus UTEX393 and the wastewater-born consortium cultures achieved good average linear growth rate (0.186 and 0.198/d, respectively) and high average nitrogen removal rates (23.5 mgN/L/d and 21.9 mgN/L/d, respectively). Phosphorus removal was very high probably due to precipitation. An integrated process was designed to treat the hydroponic farm wastewater using the wastewater-born consortium. Despite relatively low coagulation efficiencies in the preliminary tests, when integrated in a continuous process, chitosan was efficient to harvest the naturally wastewater-born consortium. The process was also efficient for removing nitrate and phosphate in less than seven days (average removal of 98.2 and 87.1% for nitrate and phosphate, respectively). These very promising results will help to define a pre-industrial pilot process.

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Bioenergy Use from Pavlova lutheri Microalgae

et al. 2017

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Valoración de la orientación profesional en la enseñanza secundaria postobligatoria

Álvarez

Gómez

Campos

2017

rie

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Pablo Álvarez

Effect of Nitrogen and Phosphorus Concentration on Their Removal Kinetic in Treated Urban Wastewater byChlorella Vulgaris

Chlorella stigmatophorafor Urban Wastewater Nutrient Removal and CO₂Abatement

Hydroponic Farm Wastewater Treatment Using an Indigenous Consortium

Bioenergy Use from Pavlova lutheri Microalgae

Valoración de la orientación profesional en la enseñanza secundaria postobligatoria

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About

Pablo Álvarez

Effect of Nitrogen and Phosphorus Concentration on Their Removal Kinetic in Treated Urban Wastewater byChlorella Vulgaris

Chlorella stigmatophorafor Urban Wastewater Nutrient Removal and CO2Abatement

Hydroponic Farm Wastewater Treatment Using an Indigenous Consortium

Bioenergy Use from Pavlova lutheri Microalgae

Valoración de la orientación profesional en la enseñanza secundaria postobligatoria

Contact Info

Product

Resources

About

Chlorella stigmatophorafor Urban Wastewater Nutrient Removal and CO₂Abatement