Your search keyword '"Devi SS"' showing total 3 results

1. Biomass and lipid enhancement in Chlorella sp. with emphasis on biodiesel quality assessment through detailed FAME signature.

Author

Shekh AY, Shrivastava P, Gupta A, Krishnamurthi K, Devi SS, and Mudliar SN

Subjects

Analysis of Variance, Chlorella drug effects, Chlorella radiation effects, Light, Magnesium Sulfate pharmacology, Regression Analysis, Salinity, Biofuels analysis, Biomass, Chlorella metabolism, Esters analysis, Fatty Acids analysis

Abstract

In this study, the concentrations of MgSO4, salinity and light intensity were optimised for maximum biomass productivity and lipid content in Chlorella sp. Lipid synthesized at varied experimental conditions was also assessed in detail for biodiesel properties through FAME analysis. FAMEs mainly composed of C16:0, C16:1(9), C16:3(7, 10, 13), C18:0, C18:1(11), C18:2(9, 12), C18:3(9, 12, 15). The optimum biomass productivity (372.50mgL(-1)d(-1)) and lipid content (32.57%) was obtained at MgSO4-150ppm; salinity-12.5ppm, and light intensity-25μmolm(-2)s(-1). However, at this condition the cetane number, a major biodiesel property was not complying with worldwide biodiesel standard. Therefore, further optimisations were done to check the suitability of biodiesel fuel. The optimum biomass productivity (348.47mgL(-1)d(-1)) and lipid content (12.43%) with suitable biodiesel fuel properties was obtained at MgSO4-50ppm, salinity-25ppm and light intensity-100μmolm(-2)s(-1). The validation experiments confirmed the closeness of predicted and measured response values., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2016

2. Stress-induced lipids are unsuitable as a direct biodiesel feedstock: a case study with Chlorella pyrenoidosa.

Author

Shekh AY, Shrivastava P, Krishnamurthi K, Mudliar SN, Devi SS, Kanade GS, Lokhande SK, and Chakrabarti T

Subjects

Biomass, Carbon Dioxide pharmacology, Chlorella drug effects, Chlorella growth & development, Esters metabolism, Fatty Acids metabolism, Biofuels analysis, Chlorella metabolism, Lipids biosynthesis, Stress, Physiological drug effects

Abstract

The effects of various stresses on the suitability of lipid synthesized by Chlorella pyrenoidosa for biodiesel production were investigated. Lipids were characterized for detailed fatty acid methyl ester profiling and biodiesel properties like cetane number (CN), iodine value, cold filter plugging point (CFPP). Maximum biomass productivity (106.63 mgL(-1)d(-1)) and lipid content (29.68%) were obtained at indoor cultivation (nitrate sufficient, pH 8-10, 24h illumination). However, compared to this condition, other nitrate sufficient cultures [pH 6-8 and 10-12 (24h illumination), and at ambient CO2 and 16:8h light:dark photoperiod (pH unadjusted)] showed ∼12-14% lower lipid productivity. Upon 50% nitrate depletion (at indoor and outdoor; pH unadjusted) lipid content has increased by 7.62% and 17%, respectively. Though stress conditions helped enhancing lipid accumulation, there was two-fold increase in PUFA content compared to that observed at pH 8-10. This resulted in fuel properties which did not comply with the biodiesel standards., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

3. Bio-mitigation of CO(2), calcite formation and simultaneous biodiesel precursors production using Chlorella sp.

Author

Fulke AB, Mudliar SN, Yadav R, Shekh A, Srinivasan N, Ramanan R, Krishnamurthi K, Devi SS, and Chakrabarti T

Subjects

Biomass, Bioreactors microbiology, Chlorella growth & development, Chlorella radiation effects, Chromatography, Gas, Esters analysis, Light, Lipid Metabolism drug effects, Microscopy, Electron, Scanning, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, Biofuels, Calcium Carbonate metabolism, Carbon Dioxide pharmacology, Chlorella drug effects, Chlorella metabolism

Abstract

In this study, an attempt was made to use micro-algal system for the production of biodiesel precursors and simultaneous CO(2) mitigation. Chlorella sp. was found to have a higher growth rate as compared to the other algal species tested namely Chlamydomonas sp. and Synnecococcus sp. At different CO(2) concentrations (0.03%, 3%, 10% and 15%), the lipid productivity was 23.0, 20.0 and 27.3mg/L/d respectively. Calcite produced was characterized using FT-IR, SEM and XRD. The FAME in crude biofuel was analyzed by GC-FID that found to contain palmitic acid (C16:0), docosapentaenoic acid (C22:5) and docosahexaenoic acid (C22:6). The calorific value of Chlorella sp. was found to be 29kJ/g which is higher than values reported for fresh water microalgae making it a potential candidate to be used as an alternate fuel., (Copyright 2010 Elsevier Ltd. All rights reserved.)

Published

2010