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Homepage>BS Standards>75 PETROLEUM AND RELATED TECHNOLOGIES>75.160 Fuels>75.160.20 Liquid fuels>BS EN 16091:2022 Liquid petroleum products. Middle distillates and fatty acid methyl ester (FAME) fuels and blend. Determination of oxidation stability by rapid small scale oxidation test (RSSOT)
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immediate downloadReleased: 2023-01-06
BS EN 16091:2022 Liquid petroleum products. Middle distillates and fatty acid methyl ester (FAME) fuels and blend. Determination of oxidation stability by rapid small scale oxidation test (RSSOT)

BS EN 16091:2022

Liquid petroleum products. Middle distillates and fatty acid methyl ester (FAME) fuels and blend. Determination of oxidation stability by rapid small scale oxidation test (RSSOT)

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Standard number:BS EN 16091:2022
Pages:18
Released:2023-01-06
ISBN:978 0 539 17189 1
Status:Standard

BS EN 16091:2022 - A Comprehensive Guide to Liquid Petroleum Products

Introducing the BS EN 16091:2022, a definitive standard for the analysis and determination of oxidation stability in liquid petroleum products, middle distillates, fatty acid methyl ester (FAME) fuels, and blends. This standard is a must-have for professionals in the petroleum industry, providing a comprehensive guide to conducting a Rapid Small Scale Oxidation Test (RSSOT).

Key Features

The BS EN 16091:2022 is a meticulously crafted standard, spanning over 18 pages of detailed instructions and guidelines. Released on 2023-01-06, it is the most up-to-date resource for conducting RSSOT on petroleum products and blends.

With an ISBN of 978 0 539 17189 1, this standard is easily identifiable and accessible for professionals worldwide. It is recognized as a standard, ensuring its credibility and reliability in the industry.

What Does It Cover?

The BS EN 16091:2022 covers a wide range of topics related to the determination of oxidation stability in liquid petroleum products. It provides a detailed methodology for conducting a Rapid Small Scale Oxidation Test (RSSOT), a crucial test for assessing the stability of petroleum products and blends.

This standard also provides guidelines for the analysis of middle distillates and fatty acid methyl ester (FAME) fuels, providing a comprehensive resource for professionals in the petroleum industry.

Why Choose BS EN 16091:2022?

Choosing the BS EN 16091:2022 means choosing a reliable, comprehensive, and up-to-date standard for the analysis of liquid petroleum products. This standard is recognized worldwide, ensuring its credibility and reliability in the industry.

With its detailed guidelines and methodologies, the BS EN 16091:2022 provides a comprehensive resource for professionals in the petroleum industry. Whether you're a seasoned professional or a newcomer to the industry, this standard is a must-have resource for your work.

Conclusion

The BS EN 16091:2022 is a comprehensive, reliable, and up-to-date standard for the analysis of liquid petroleum products. With its detailed guidelines and methodologies, it is a must-have resource for professionals in the petroleum industry. Don't miss out on this essential resource - get your copy of the BS EN 16091:2022 today!

DESCRIPTION

BS EN 16091:2022


This standard BS EN 16091:2022 Liquid petroleum products. Middle distillates and fatty acid methyl ester (FAME) fuels and blend. Determination of oxidation stability by rapid small scale oxidation test (RSSOT) is classified in these ICS categories:
  • 75.160.20 Liquid fuels
This document specifies a method for the determination of the oxidation stability of middle distillate fuels, fatty acid methyl ester (FAME) fuel and blends thereof, under accelerated conditions, by measuring the induction period to the specified breakpoint in a reaction vessel charged with the sample and oxygen at 140 °C. NOTE 1 For the purposes of this document, the term "% (V/V)" is used to represent the volume fraction (φ). NOTE 2 The induction period is used as an indication for the resistance of middle distillates, fatty acid methyl ester (FAME) fuels and blends thereof against oxidation. This correlation can vary markedly under different conditions with different FAMEs and diesel fuel blends. NOTE 3 The presence of ignition improvers can lead to lower oxidation stability results determined by this method. It has for instance been observed that the addition of 2-ethyl hexyl nitrate (2-EHN) can reduce the measured oxidation stability values. See [6] for details. NOTE 4 For further information on the precision data at a test temperature of 120 °C see Annex C.