US EPA

1703747 

Journal Article 

Temperature-dependent kinematic viscosity of selected biodiesel fuels and blends with diesel fuel 

Yuan, WQ; Hansen, AC; Zhang, Q; Tan, ZC 

2005 

Yes 

Journal of the American Oil Chemists' Society
ISSN: 0003-021X
EISSN: 1558-9331 

82 

3 

195-199 

WOS:000228808300008 

The kinematic viscosities of four biodiesel fuels-two natural soybean oil methyl esters, one genetically modified soybean oil methyl ester, and one yellow grease methyl ester-and their 75, 50, and 25% blends with No. 2 diesel fuel were measured in the temperature range from 20 to 100 degrees C in steps of 20 degrees C. The measurements indicated that all these fuels had viscosity-temperature relationships similar to No. 2 diesel fuel, which followed the Vogel equation as expected. A weighted semilog blending equation was developed in which the mass-based kinematic viscosity of the individual components was used to compute the mixture viscosity. A weight factor of 1.08 was applied to biodiesel fuel to account for its effect on the mixture viscosity. The average absolute deviation achieved with this method was 2.1%, which was better than the uncorrected mass average blending equation that had an average absolute deviation of 4.5%. The relationship between the viscosity and the specific gravity of biodiesel fuels was studied. A method that could estimate the viscosity from the specific gravity of biodiesel fuel was developed. The average absolute deviation for all the samples using this method was 2.7%. The accuracy of this method was comparable to the weighted mass-based semilog blending equation. 

biodiesel; diesel fuel; kinematic viscosity; methyl esters