UOP 1015-17 is a laboratory determination method for measuring trace oxygenates in polymer grade ethylene and propylene by gas chromatography mass spectrometry. It is designed to support buyers who need a standardized way to evaluate low-level oxygenated impurities in high-purity olefin streams. For petrochemical laboratories, refinery QA/QC teams, and analytical reviewers, this method helps define product suitability, compare sample quality, and document results with a consistent technical reference. Its focus on trace analysis makes it relevant wherever small contamination levels can affect downstream processing or product specification review.

What does UOP 1015-17 measure?

UOP 1015-17 measures trace oxygenates in polymer grade ethylene and propylene using GC-MS as the analytical technique. In practical terms, it is intended to identify and quantify very low-level oxygenated compounds that may be present in these olefin feedstocks. Because it is a determination method, the emphasis is on repeatable measurement and clear analytical output rather than process operation. This makes the method useful for laboratories that need a reliable reference for trace impurity evaluation, especially when product purity and contamination control are important.

Where is UOP 1015-17 used?

This method is commonly used in petrochemical and industrial laboratory environments that test polymer grade ethylene and propylene. It is a practical fit for analytical chemists, lab analysts, and refinery or plant QA/QC personnel who review feedstock quality, perform trace impurity checks, or support technical documentation. UOP 1015-17 may also be used by product quality specialists and process engineers when comparing incoming samples, verifying supplier data, or supporting internal acceptance decisions. Its focus on oxygenate determination makes it relevant to high-purity olefin handling and review workflows.

Why is UOP 1015-17 important?

UOP 1015-17 matters because trace oxygenates can influence the perceived quality and usability of polymer grade ethylene and propylene. A standardized measurement method helps teams maintain consistency across laboratory testing, improve comparability between samples, and support clearer quality decisions. For organizations that depend on reliable analytical documentation, this method provides a common basis for product review and technical communication. It is especially valuable where small differences in impurity levels may affect acceptance, process confidence, or downstream material evaluation.

• Trace oxygenate determination
• Polymer grade ethylene and propylene
• GC-MS analytical workflow
• Laboratory consistency and review
• QA/QC and product verification
• Technical documentation support