UOP 1000-13 is a practical reference for Smoke Point Determination of Kerosene and Aviation Turbine Fuel Using an Automated Method, designed for laboratories that need a consistent way to evaluate fuel burning characteristics. As a UOP determination method, it supports repeatable measurement for product qualification, comparison, and quality review. For buyers responsible for fuel testing, refinery QA/QC, or technical documentation, this standard helps define how smoke point results are generated and reviewed in a controlled laboratory setting. It is especially relevant where kerosene and turbine fuel performance must be assessed with clarity and consistency.

What does UOP 1000-13 measure?

UOP 1000-13 measures the smoke point of kerosene and aviation turbine fuel through an automated analytical approach. In practical terms, it provides a standardized determination of a fuel property that is useful for laboratory comparison and specification-related review. Because the method is focused on measurement rather than process operation, it helps analytical teams work from a common reference when evaluating fuel samples. The official title makes clear that its scope is centered on smoke point testing for these fuel types, supporting dependable data generation in routine petroleum testing.

Where is UOP 1000-13 used?

This method is commonly used in fuel testing laboratories, refinery quality control groups, and technical review functions that handle kerosene or aviation turbine fuel. Laboratory analysts may use it for routine sample evaluation, while QA/QC personnel and product quality specialists may rely on it for consistency checks and documentation. It is also relevant in organizations that compare product batches, verify fuel behavior, or maintain analytical records for aviation and refinery applications. UOP 1000-13 fits well into laboratory workflows where standardized smoke point data supports informed product assessment.

Why is UOP 1000-13 important?

UOP 1000-13 matters because smoke point results can influence how fuel quality is reviewed, compared, and documented across laboratory operations. A standardized determination method helps reduce ambiguity between sites, analysts, and sample sets, which is valuable when teams need reliable data for routine testing or technical sign-off. For refinery and fuel laboratory users, it supports consistent analytical practice and clearer quality verification. UOP 1000-13 is therefore useful wherever repeatable smoke point measurement is needed to support product control and professional decision-making.

• Smoke point determination for kerosene and aviation turbine fuel
• Automated laboratory measurement focus
• Useful for refinery QA/QC workflows
• Supports fuel comparison and sample review
• Relevant to analysts and technical reviewers
• Helps standardize documentation and reporting