Carbon dioxide biofixation and lipid accumulation potential of an indigenous microalga Scenedesmus obliquus (Turpin) Kutzing GA 45 for biodiesel production

摘要

The environmental precedence of the reduction of greenhouse gases catches the attention of researchers for CO2 biomitigation vis-a-vis biodiesel production using microalgae. In this study, a locally isolated microalga, Scenedesmus obliquus (Turpin) Kutzing GA 45 presented a biomass yield of 3.74 g L-1 with a concurrent lipid yield of 850 mg L-1 for a 16-day incubation period under 15% CO2 sparging at 0.6 wm air flow in a photobioreactor system. These values were raised up to 7.01 and 1.69 g L-1, respectively, for biomass and lipid yield for 10 days incubation with 1% glucose under the above conditions. The maximum CO2 bio-fixation rate was found to be as high as 0.77 g L-1 d(-1). Moreover, under one week's biphasic nitrogen starvation, lipid content was boosted up to 43.9% of dry cell weight (dcw) with a yield of 2.0 g L-1. This yield can be projected to an areal lipid productivity of 180 tons per ha per year, and a CO2 biofixation rate of 1170 tons per ha per year with 200 algal ponds (size: 15 x 3 x 0.5 m), assuming 18 cultivation cycles per year. The GC-MS study revealed that the test microalgal biodiesel was rich in saturated and monounsaturated fatty acid methyl esters (>80%). The fuel properties, viz. density, viscosity, acid value, iodine value, calorific value, cetane index, ash and water contents were analyzed, and found to be comparable with national and international biodiesel standards. This study thus demonstrated that the mixotrophic culture conditions followed by nitrogen starvation are superlative among all other conditions for obtaining high biomass and lipid yields with qualitative biodiesel production, and ensured the prospects of the test microalga S. obliquus (Turpin) Kutzing GA 45 for large-scale exploitation.