Exoskeleton of a Mollusk (Pila globosa) As a Heterogeneous Catalyst for Synthesis of Biodiesel Using Used Frying Oil
2012
Agrawal, Shweta | Singh, Bhaskar | Sharma, Yogesh Chandra
A heterogeneous catalyst has been derived from a waste material (i.e., exoskeleton of mollusk) for transesterification of a waste feedstock (i.e., used frying oil (UFO)) for synthesis of biodiesel. The exoskeleton of mollusk shell was crushed, ground, and calcined at 900 °C to derive CaO as a heterogeneous catalyst. The catalyst was characterized by X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, X-ray fluorescence spectroscopy (XRF), and differential thermal analysis/thermogravimetric (DT/TG) analysis. The XRD peaks observed at 2θ = 31.80, 36.93, and 53.37° were characteristic of CaO and showed high crystallinity. The FTIR absorption bands of the calcined shell were observed at 1474, 870, and 502 cm–¹, which are attributed to the vibration of CO₃²– molecules, and a sharp peak at 3640 cm–¹ indicated the presence of OH– stretching due to Ca(OH)₂. The XRF analysis demonstrated the Pila globosa shell to comprise 79.86% of calcium along with few minor elements (viz. Pd, I, Te, Sb, Sn, W, Al, Si, Sr, Cr, S). The (DT/TG) analysis showed the decomposition of calcium carbonate present in Pila globosa at 860 °C. The waste-driven substances (exoskeleton of mollusk as catalyst and UFO as feedstock) resulted in a high yield (92%) and conversion (97.8%) of biodiesel that was obtained at a 10:1 (methanol to oil) molar ratio, 4.0 wt % catalyst, at 60 ± 0.5 °C in 5 h reaction. The conversion of UFO to biodiesel was determined by ¹H FT-NMR.
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