Optimization of nutrients from wastewater using RSMfor augmentation of Chlorella pyrenoidosa with enhanced lipid productivity, FAME content, and its quality assessment using fuel quality index

Optimization of nutrients from wastewater using RSMfor augmentation of Chlorella pyrenoidosa with enhanced lipid productivity, FAME content, and its quality assessment using fuel quality index

This experimental study was framed with an objective to optimize the nutrients ((dairy industry wastewater (DIWW), nitrate (NO 3 − ), and phosphate (PO 4 −3 )) using response surface methodology (RSM) with Chlorella to investigate biomass and lipid with FAME content. Quality of obtained bio-oil was...

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Bibliographic Details
Published in:Biomass conversion and biorefinery Vol. 10; no. 2; pp. 495 - 512
Main Authors: Ahmad, Shamshad, Kothari, Richa, Pathania, Deepak, Tyagi, V. V.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-06-2020
Springer Nature B.V
Subjects:
Biodiesel fuels
Biomass
Biotechnology
Cetane number
Chlorella
Crude oil
Dairy industry
Energy
Fuels
Iodine
Lipids
Nutrients
Optimization
Original Article
Parameters
Productivity
Quality
Quality assessment
Renewable and Green Energy
Response surface methodology
Wastewater
Nutrients
Response surface methodology
Wastewater
FAME content
Fuel quality index
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Summary:This experimental study was framed with an objective to optimize the nutrients ((dairy industry wastewater (DIWW), nitrate (NO 3 − ), and phosphate (PO 4 −3 )) using response surface methodology (RSM) with Chlorella to investigate biomass and lipid with FAME content. Quality of obtained bio-oil was also indexed on scale of fuel quality parameters. Three variables were tested with 20 interactions between these variables, and their affects were statistically studied using central composite design. Biomass and lipid concentration with FAME content varied between 0.59 to 1.54 g L −1 , 19.81 to 34.54%, and 69.32 to 82.78%, respectively, for different combinations of operating variables. Interactive effects of combined nutrients were also studied in combination, and the best biomass and lipid productivity was noticed with NO 3 −  + PO 4 −3 in comparison to others, whereas the best FAME content (85.23%) was observed with DIWW + NO 3 . FTIR analysis showed variation in the spectra with different selected combinations with 1.7-fold increase in the lipid content in respect to control. Qualitative assessment of parameters ranges in between 0.74 and 1.01 mg KOH/g for acid value (AV), 152.34–187.24 mg KOH/g for saponification value (SV), 135.39–143.95-mg I 2 /100 g oil for iodine value (IN), whereas cetane value (CN) was found in between 43.06 and 50.31 and higher heating values (HHVs)) almost 45 MJ kg −1 . Crude bio-oil’s quality was compared with the fuel quality index (FQI), where S 4 quality sample (59.12) was found significantly compatible with the commercial biodiesel.
ISSN:2190-6815
2190-6823
DOI:10.1007/s13399-019-00443-z