Improvement of Palm Oil Biodiesel Filterability by Adsorption Methods |
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| Authors: | Vladimir Plata Darrin Haagenson Ayhan Dağdelen Dennis Wiesenborn Viatcheslav Kafarov |
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| Affiliation: | 1. , Centro de Investigación para el Desarrollo Sostenible en Industria y Energía, Universidad Industrial de Santander, Bucaramanga, Colombia;2. , NDSU Dept. 7620, Department of Agricultural and Biosystems Engineering, North Dakota State University, Fargo, ND, USA;3. , Department of Food Engineering, Balikesir University, Balikesir, Turkey;4. +1 701 231 7277 |
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| Abstract: | Palm oil biodiesel (POB) is characterized by a very high cold soak filtration time (CSFT), which places the acceptability of this biofuel at risk. Therefore, the effect of four adsorbents, namely diatomaceous earth, natural silicate (NS), neutral bleaching earth (NBE), and acid activated bleaching earth (AABE), at two levels of addition (1 and 5 wt%) or two temperatures (25 and 110 °C) on the precipitate content and CSFT of POB was investigated. The impact on total glycerin content, moisture content, and oxidative stability was also examined. All treatments significantly decreased the precipitate content, total glycerin content, and moisture content, but only treatments with NS, NBE, and AABE at 5 wt% and 25 °C achieved acceptable filterability. The OSI value was also decreased; however, it remained above the ASTM limit. Operational conditions of treatment with AABE were further optimized in a two‐factor, five‐level center composite design. The combination of 0.65 wt% AABE and 10 min at 25 °C decreased CSFT to below the ASTM limit. Lower adsorbent concentrations could be effective down to 0.44 wt%, given a corresponding increase in the contact time up to 30 min. |
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| Keywords: | Precipitate Cold soak filtration time Bleaching earth Central composite design |
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