Optimization studies

What is it about?

The present study illustrates optimization and synergetic potential of alga Chlorella pyrenoidosa for lipid production and remediation of Dairy industry wastewater (DIWW) through response surface methodology (RSM). Maximum lipid productivity of 34.41% was obtained under 50% DIWW supplemented with 0 mg L−1 nitrate (NO3−), and 50 mg L−1 phosphate(PO4−3). While maximum biomass productivity (1.54 g L−1) was obtained with 50% DIWW supplemented with 100 mg L−1NO3−, and 50 mg L−1, PO4−3. Maximum removal of COD (43.47%), NO3− (99.80%) and PO4−3 (98.24%) was achieved with8th run (75% DIWW, 150 mg L−1 NO3−, 75 mg L−1 PO4−3), 15th run (50% DIWW, 0 mg L−1 NO3−, 50 mg L−1, PO4− 3)followed by 1st run (25% DIWW, 50 mg L−1 NO3−, and 25 mg L−1, PO4−3), respectively. Lipid (bio-oil) obtained from15th run of experiment was converted in biodiesel through base catalyze transesterification process. Fatty acid methyl ester(FAME) analysis of biodiesel confirmed the presence of major fatty acids in C. pyrenoidosa grown in DIWW were C11:0,C14:0, C16:0, C16:1, C18:1 and C18:2. Results of study clearly demonstrate enhanced growth and lipid accumulation by C. pyrenoidosa in surplus PO4 −3 and limitation of NO3 − sources with DIWW and its suitability as potential alternative for commercial utilization.

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Why is it important?

This paper discusses biodiesel production in integration with RSM using dairy industry waste water