Improving Flow Properties of Rapeseed-Based Biodiesel at Low Temperatures

Xiu Chen; Cui Ying Lu; Yong Bin Lai; Wu Jie Ge; Su Rong Li; Jun Tao

doi:10.4028/www.scientific.net/AMR.512-515.426

Paper Titles

Experimental Study of Effecting Factors for Plant Straw Densification
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Finite Element Analysis for Normal-Temperature Wet Briquetting of Straws
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Gaming Analysis among Different Participants in the Construction of Biomass Energy Forest Base
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Heterogeneous Acid-Catalyzed Hydrolysis of Cellulose
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Improving Flow Properties of Rapeseed-Based Biodiesel at Low Temperatures
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Monascus anka Pyruvate Decarboxylase Accounts for the New Candidate Resources of Fuel Ethanol Production
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Production Methods without Waste Water of Biodiesel Based on Solid Neutralizing Agent
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Relationship of Substrate and Inoculum on Biochemical Methane Potential for Grass and Pig Manure Co-Digestion
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Removal of Tar during Pine Sawdust Fast Pyrolysis with Catalysts
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Improving Flow Properties of Rapeseed-Based Biodiesel at Low Temperatures

Abstract:

The cold flow properties of rapeseed-based biodiesel (RME) were studied by gas chromatography-mass spectrometry (GC-MS), multifunctional low temperature tester and thermal analysis. Two approaches for reducing cold filter plugging point (CFPP) of RME were investigated: blending with winter petrodiesel, treating with cold flow improver (CFI) additives and the effect of CFI to combustion characteristics of RME. A good correlation model was proposed for prediction CFPP by RME blending ratio. The study shows that the RME was mainly composed of fatty acid methyl esters (FAME): C_14:0–C_24:0, C_16:1–C_22:1, C_18:2 and C_18:3. The mass fraction of saturated fatty acid methyl esters (SFAME) and unsaturated fatty acid methyl esters (UFAME) was 14.69% and 83.40%, respectively. The CFPP of RME was -7 °C. Blending with -10 petrodiesel (-10PD) decreased the CFPP to -12 °C. Treating with CFI additives (volume fraction ≤ 1.5%) decreased the CFPP of RME and RME/-10PD to -11 and -28 °C, respectively. Small amount of CFI additives hardly affected combustion characteristics of biodiesel. This study has effectively improved cold flow properties of biodiesel and provided guide for using biodiesel at low temperatures.