Enhanced productivity of lipid extraction by urea stress conditions on marine microalgae Coelastrum sp. for improved biodiesel production

Tipo de material: Texto

TextoSeries ; Bioresource Technology Reports, 15, 100696, 2021Trabajos contenidos:

Bhuyar, P
Sundararaju, S
Rahim, M. H. A
Maniam, G. P
Govindan, N

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Resumen: Present investigation focused on marine microalgae strain Coelastrum sp. for enhanced biodiesel production. Microalgae grow when stressed and produce enhanced lipids despite urea being present. The dry cell weight, chlorophyll (a)content and total biomass yield increased productivity after the addition of urea in the nutrient medium. The chlorophyll (a)concentration and biomass yield obtained was 5.8839 ?g/mL and 0.2357 ± 0.14 g. However, Coelastrum sp. obtained 41 percent of dry lipid under the absence of urea source than other microalgae species. The presence of some FAME components in the Coelastrum sp. provides scientific evidence for major constituent marine microalgae biodiesel. The GCMS revealed that major chemical constituents were hexadecanoic acid, Phthalic acid, di (3,4-dimethyl)ester, 5-(2-Aminopropyl)2-methylphenol and Phenethylamine, p, alpha-dimethyl (please add biodiesel yield or FAME percent). The use of marine microalgae stressed by nitrogen source will beneficial to produce commercially viable biodiesel.

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Present investigation focused on marine microalgae strain Coelastrum sp. for enhanced biodiesel production. Microalgae grow when stressed and produce enhanced lipids despite urea being present. The dry cell weight, chlorophyll (a)content and total biomass yield increased productivity after the addition of urea in the nutrient medium. The chlorophyll (a)concentration and biomass yield obtained was 5.8839 ?g/mL and 0.2357 ± 0.14 g. However, Coelastrum sp. obtained 41 percent of dry lipid under the absence of urea source than other microalgae species. The presence of some FAME components in the Coelastrum sp. provides scientific evidence for major constituent marine microalgae biodiesel. The GCMS revealed that major chemical constituents were hexadecanoic acid, Phthalic acid, di (3,4-dimethyl)ester, 5-(2-Aminopropyl)2-methylphenol and Phenethylamine, p, alpha-dimethyl (please add biodiesel yield or FAME percent). The use of marine microalgae stressed by nitrogen source will beneficial to produce commercially viable biodiesel.

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