In many regions ASTM D2887 may be used for determining the boiling point distribution of petroleum products, feedstocks and fractions that have a final boiling point of 538°C or lower. This provides insight into composition and determining intrinsic product value.
Even though Physical Distillation is still considered the reference method for distillation, and therefore mandatory in many countries for qualifying fuels, Simulated Distillation (SIMDIST) by gas chromatography offers some significant advantages over the physical procedure, making this technique valuable.
Analysis by GC typically has the better precision, more throughput, less hands-on time and lower cost per sample. Lastly, Simulated Distillation (SIMDIST) requires considerable less sample and should generally be considered the safer of the two techniques.
In addition to the standard method (procedure A), a second procedure has recently been added into D2887, the accelerated or fast method (procedure B).
This application note demonstrates a solution for D2887 procedure A for analysing Petroleum products covering a boiling point range of 36°C to 545°C. This procedure is not suited for biodiesels. For gasolines, method D7096 should be used
Experimental
The SCION Simulated Distilation analyser comprises of a SCION 456-GC or 436-GC, configured with a cool on column (COC) injector, a specialist SimDist column, and a flame ionisation detector (FID). Analytical conditions for the SimDist analysis can be found in Table 1.
A qualitative mixture of normal paraffins (C5-C44 1% wt/wt each in CS2) was used to determine the relationship of boiling point (BP) versus retention time (RT). All samples were diluted prior to injection with CS2 as per ASTM D2882-18. Gasoil samples were analysed as a quality control.
Simulated Distillation Results
Figures 1 and 2 show the n-paraffins mixture, and the resulting RT vs BP calibration curve as constructed by the SIMDIS Software
In order to meet the requirements of ASTM D2887, the reference gas oil sample was analysed. The sample was analysed over five consecutive injections as per the ASTM D2887 method.
Figure 3 shows the chromatogram of the reference gas oil sample, with Table 2 showing the total boiling point distribution of the gas sample along with the ASTM D2887 reference values and max deviation criteria.
In order to meet the requirements of ASTM D2887, the reference gas oil sample was analysed. The sample was analysed over five consecutive injections as per the ASTM D2887 method.
Figure 3 shows the chromatogram of the reference gas oil sample, with Table 2 showing the total boiling point distribution of the gas sample along with the ASTM D2887 reference values and max deviation criteria.
Differences between Reference BP and Observed BP for each 10% weight slice fraction typically are <2°C, with exception of the FBP, which was slightly larger. All these are well within the allowable value of the ASTM D2887 method
Conclusion
It is demonstrated that Scion Simulated Distillation (SIMDIS) solution passes criteria as described in ASTM D2887, procedure A. Differences between observed values and consensus value for the reference gasoil used were generally small, typically 2°C or lower, with exception of the FBP.
Please note that:
– Boiling range distributions obtained by this test method are essentially equivalent to those obtained by true boiling point (TBP) distillation (see Test Method D2892).
– They are not equivalent to results from low efficiency distillations such as those obtained with Test Method D86 or D1160.
– The gas chromatographic simulation of this determination can be used to replace conventional distillation methods for control of refining operations.
– This test method can be used for product specification testing with the mutual agreement of interested parties 1.
Download this Application Note
You can download a PDF of this application note here: Analysis of Boiling Point Distributions in Petroleum Fractions using Simulated Distillation
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