Abstract
The aim of this research is to analyze the effect of urea fertilizer as a nitrogen source to lipid productivity of mixed culture of green microalgae consisting of Monoraphidium sp., Chlorella sorokiniana, and Scenedesmus obliquus as lipid sources. In research, cultures were cultivated in a 1.5 L glass photobioreactor with batch culture system. The operational conditions of this research were carried out at pH 6.0, 27 °C, aeration with air flow 150 mL/sec, and 2400 lux with vary amount of urea as a source of nitrogen as much (grams) 0.0; 0.5; 1.0. The Bligh and Dyer extraction is performed to produce biofuels after harvesting process and to analyze lipid content. Analysis of fatty acids using Gas Chromatography Mass Spectrometry (GCMS) Method, analysis of dry weight using Gravimetric Method, and analysis of cell density using Spectrofotometry Method. This research concludes that with 0.5 grams of urea fertilizer can produce dry weight and total lipid content optimally that were 0.26% (w/w) and 36,35% (w/w). This research concludes that increasing amount of nitrogen source could be increasing green microalgae biomass but is not for increased lipid content. The high lipid content can be produced by decreasing 50% nitrogen source.
Highlights
A scarcity of fossil fuels is a reality that couldn’t be avoided
The main research stage begins with cultivation process of consortium of green microalgaes within 20 days, variation of urea fertilizer (CO (NH2)2) is added in growth media as nitrogen source as much as 0.0 grams (0%), 0.5 grams (50%), and 1.0 grams (100%)
The growth of cultivated consortium of green microalgaes were measured by using UV-Vis spectrofotometre at wavelength 680 nm, the result of the analysis is processed into growth curve
Summary
A scarcity of fossil fuels is a reality that couldn’t be avoided. It could be happened due to the use of fossil fuels as an energy source for many transportation capable of reaching more than 50% compared to using other fuels [1]. The scarcity of fossil fuels is causing its price continues to soar up. Biodiesel from microalgae has the greatest potential to replace fossil fuels among renewable energy sources due to microalgae could live almost anywhere that has enough sunlight, water and CO2, has the chemical composition of the cell consisting of proteins, carbohydrates, and fatty acids [2]. These fatty acid components will be extracted into lipids and converted into biodiesel [3]
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