New Energy scientists at Jiangsu University design innovative way for enhanced biodiesel production from microalgae with waste recycling

In a paper published by New Energy scientists at Jiangsu University, China; Mixture of waste glycerol and lipid-free algal biomass from biodiesel industry showed potential for increasing efficiency of growth and biodiesel recovery from microalgae.

Recently, microalgae-based biofuels received increasing attention because microalgae offer numerous advantages compared to the terrestrial plants, such as the higher photosynthetic efficiencies which result in higher growth rates, high ability of CO₂ mitigation using flue gas, possibility of cultivation on arid lands and their ability to grow in fresh, marine or wastewater. In a recent study published by new energy teamwork at Jiangsu University, a novel approach of using growth medium with different substitutions of biodiesel industry byproducts, lipid-free algal hydrolysate and/or waste glycerol, for enhanced biodiesel production from the green microalga Scenedesmus obliquus was investigated. Combination of different concentrations of WG with 15% LFAH showed the maximum significant biomass productivity, which represented 27.4, 30.5 and 28.9% over the control at combined 5, 10 and 20 g L^-1 WG, respectively. However, combinations of different LFAH with 20 g L^-1 WG showed the maximum significant lipid accumulation. However, lipid productivity showed its maximum significant value of 59.66 mg L^-1d^-1 using LFAH15-WG10. In addition, LFAH15-WG10 significantly enhanced total biodiesel (FAMEs) yield by 21.2% over the control. Moreover, it reduced polyunsaturated fatty acids (PUFAs) ratio from 52.1% to 47.8% of total FAMEs and increased monounsaturated fatty acids (MUFAs) ratio from 26.6% to 31.3% of total FAMEs.

The research team concluded that their study suggested a successful innovative technology in which the combination of lipid-free algal hydrolysate and waste glycerol can be used for microalgae cultivation on wastewater to enhance both biomass, lipids and biodiesel production. It could not only enhance biodiesel production, but also manage wastes from microalgae-based biodiesel industry.

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New Energy Department

Jiangsu University

China