Understanding the composition of finished gasoline is paramount to ensure that a safe and quality petroleum product is delivered to downstream oil and gas customers. PerkinElmer’s portfolio of oxygenate and aromatic analyzers are engineered specifically to meet the needs of customers producing finished gasoline products. Our analyzers can be used to determine ether and alcohol additives in finished gasoline products, as well as benzene, toluene, ethylbenzene and other aromatics as required. Trace methanol, acetaldehyde, MTBE, acetone, 2-propanol can also be analyzed in some models. Once installed, samples can be processed immediately, allowing you to optimize instrument up-time and productivity from day one.
false falsePlease enter valid quantity
Please log in to add favorites.
NULL OR EMPTY CART
Designed for the analysis of trace level oxygenated hydrocarbons (Acetaldehyde, MTBE, methanol, acetone, 2-propanol, DIPE, ETBE and TAME) in gasoline, liquefied petroleum gas and feed stocks of butenes, propylene, and naphtha contaminated with oxygenated compounds, Model 4086 guarantees detection levels of 0.5 ppm. The analyzer utilizes a PerkinElmer Clarus® 590 GC, and features a split/splitless injector, pressurized liquid valve, dual capillary column, Swafer™ microchannel flow technology and flame ionization detector (FID) to ensure precision and accuracy with ASTM D7423 D7754 and UOP 960. A capillary non-polar precolumn is utilized for separation of light nonpolar compounds and, in conjunction with the backflushing of heavy hydrocarbon utilizing a Swafer™ microchannel, Model 4086 ensures that high-boiling point material do not contaminate the main column.
| Detection Method | ASTM D7423 D7754 and UOP 960 |
|---|---|
| Detector Type | FID |
| Product Compatibility | Clarus 590 PPC |
| Type | Model 4086 |
Gasoline samples are complex and a single column solution is not always readily available for the required analysis. As such, solutions that have multiple columns, valves, backflushing and heartcutting ability have been developed to overcome these challenging separations. The resulting standardized ...
