Determination of Sodium and Potassium
using Emulsions and Microemulsions
for Sample Preparation

This technique allows use of aqueous standards for calibration rather than relatively unstable organometallic standards and harmful solvents for
the extraction.    

 

Microemulsions are thermodynamically stable systems composed of water, oil and surfactant. In some cases an alcohol is added as a co-surfactant.  

Procedure
To prepare a microemulsion of biodiesel or vegetable oil, a sample is first mixed with a surfactant such as Triton X-100 and a co-surfactant such as propanol, n-butanol or n-pentanol and dilute nitric acid. The emulsion is obtained when a single transparent phase was formed. The composition of the emulsion was 57.6% n-pentanol or n-butanol, 20% biodiesel or vegetable oil, 14.4% of Triton X-100 and 8% water. 

 

Due to Sodium plating out onto glassware, polypropylene glassware should be used to avoid misreading’s of sodium.

 

The microemulsion is prepared in 5ml volumetric flasks. To make up a 5ml solution of microemulsion 1ml biodiesel or vegetable oil is added to a mixture of 0.7ml Triton X-100 and 2.83ml with 0.45ml dilute nitric acid and mixed until a single transparent phase was formed.

 

For the calibration standards, 20% (w/w) of base oil was used in the microemulsion to simulate the biodiesel or vegetable oil phase. The standards were prepared from a NaCl or KCl stock solution in the aqueous phase to give a final concentration of 0.0 - 4.0mgl-1 in 5ml.

 

If desired, a blank solution made up of the emulsion can be prepared and ran as a blank prior to calibration to reduce interference from the sample matrix.

 

The LOD (limit of detection) cited for this method, for measurement of sodium and potassium was 0.1μg g-1 and 0.06μg g-1 respectively, as compared to the reference method (BS EN 14108) 0.2μg g-1 for sodium and 0.13μg g-1 for potassium (BS EN 14109). 

 

The LOQ (limit of quantitation) for this method is given as 0.3 μg g-1 and 0.2 μg g-1 respectively and 0.6 μg g-1 for sodium and 0.4 μg g-1 for potassium for the BS methods.

 

Due to low pH values having an influence on sodium emission levels, where by emission is reduced. [2] However due to the solution being based on an emulsion, any attempt to increase pH would reduce the oil-water emulsions stability. [3]

AA Perkin. (1996). Analytical Methods for Atomic Absorptions Spectroscopy. page 30.

Strassner, J.E. 1968. Effect of pH on Interfacial Films and Stability of Crude Oil-Water Emulsions. J Pet Technol20 (3): 303-312. SPE-1939-PA. http://dx.doi.org/10.2118/1939-PA.

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