Pyrolysis gasoline (pygas) and its distillate fractions often contain high levels of reactive unsaturated compounds, making it unusable as a motor fuel. In addition to the amount of diolefins (determined by the Diels-Alder method), the total amount of aliphatic olefinic components also need to be monitored. The standard method to quantify the degree of unsaturation (bromine number) in unsaturated hydrocarbons is titration.
This wet chemical method requires cooling of the sample below 5 °C to minimize side reactions like oxidation or substitution. In contrast to the primary method, near-infrared spectroscopy (NIRS) needs no sample preparation and is able to determine the bromine number within one minute. NIRS technology fulfills ASTM norms D8321 and D6122.
180 pygas samples were analyzed on a Metrohm DS2500 Liquid Analyzer equipped with disposable glass vials. All measurements were performed in transmission mode from 400 nm to 2500 nm. The temperature control was set to 40 °C to provide a stable sample environment. For convenience reasons, disposable glass vials with a pathlength of 8 mm were used, which made a cleaning procedure unnecessary. Data acquisition and prediction model development were performed with the software package Vision Air complete.
| Equipment | Metrohm number |
|---|---|
| DS2500 Liquid Analyzer | 2.929.0010 |
| Disposable vials, 8 mm diameter, transmission | 6.7402.000 |
| Vision Air 2.0 Complete | 6.6072.208 |
The obtained Vis-NIR spectra (Figure 2) were used to create a prediction model for bromine number determination in pygas. To verify the quality of the prediction model, correlation diagrams were created which display the correlation between Vis-NIR prediction and primary method values. The respective figures of merit (FOM) are displayed in Figure 3.
| Figures of Merit | Value |
|---|---|
| R2 | 0.836 |
| Standard Error of Calibration | 1.84 |
| Standard Error of Cross-Validation | 1.89 |
This application note shows the feasibility of NIR spectroscopy for the analysis of bromine number in pyrolysis gasoline. In contrast to the wet chemical method used in ASTM D1159 (Figure 4 and Table 3), no sample preparation or chemicals are required with NIR spectroscopy.
Aside from the bromine number, additional quality parameters like diene value can be determined in the same sample with NIR spectroscopy.
| Lab method | NIR method | |
|---|---|---|
| Number of analyses (per day) | 10 | 10 |
| Costs of consumables and chemicals/measurement | $6 | $0.50 |
| Time spent per measurement | 30 min | 1 min |
| Total running costs / year | $12,533 | $1,125 |
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