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Homepage>BS Standards>75 PETROLEUM AND RELATED TECHNOLOGIES>75.160 Fuels>75.160.20 Liquid fuels>BS EN 16568:2023 Automotive fuels. Blends of Fatty acid methyl ester (FAME) with diesel fuel. Determination of oxidation stability by rapidly accelerated oxidation method at 120 °C
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immediate downloadReleased: 2023-04-11
BS EN 16568:2023 Automotive fuels. Blends of Fatty acid methyl ester (FAME) with diesel fuel. Determination of oxidation stability by rapidly accelerated oxidation method at 120 °C

BS EN 16568:2023

Automotive fuels. Blends of Fatty acid methyl ester (FAME) with diesel fuel. Determination of oxidation stability by rapidly accelerated oxidation method at 120 °C

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Standard number:BS EN 16568:2023
Pages:20
Released:2023-04-11
ISBN:978 0 539 21517 5
Status:Standard

BS EN 16568:2023 - A Comprehensive Guide to Automotive Fuels

Introducing the BS EN 16568:2023, a definitive standard for automotive fuels, specifically focusing on blends of Fatty Acid Methyl Ester (FAME) with diesel fuel. This comprehensive guide provides a detailed method for determining the oxidation stability of these blends using a rapidly accelerated oxidation method at 120 °C. This standard is an essential resource for professionals in the automotive and fuel industries, ensuring the highest quality and safety standards are met.

Key Features

The BS EN 16568:2023 standard is a 20-page document, released on April 11, 2023. It carries the ISBN number 978 0 539 21517 5, ensuring its authenticity and credibility. This standard is currently active and in use, providing the most up-to-date information and guidelines in the field of automotive fuels.

Importance of Oxidation Stability

The oxidation stability of a fuel blend is a critical factor in determining its performance and longevity. Oxidation can lead to the formation of deposits and other harmful substances that can damage engine components and reduce fuel efficiency. The BS EN 16568:2023 standard provides a reliable method for assessing the oxidation stability of FAME and diesel fuel blends, helping to ensure the quality and performance of these fuels.

Understanding FAME and Diesel Fuel Blends

Fatty Acid Methyl Ester (FAME) is a type of biodiesel that is derived from vegetable oils or animal fats. When blended with diesel fuel, it can provide a more environmentally friendly alternative to traditional diesel fuels. The BS EN 16568:2023 standard provides detailed guidelines for creating and testing these blends, ensuring they meet the necessary quality and performance standards.

Why Choose BS EN 16568:2023?

The BS EN 16568:2023 standard is a trusted resource for professionals in the automotive and fuel industries. It provides clear, detailed guidelines for testing the oxidation stability of FAME and diesel fuel blends, helping to ensure these fuels meet the highest quality and safety standards. Whether you're a fuel manufacturer, automotive engineer, or quality control professional, this standard is an invaluable tool for your work.

Conclusion

In conclusion, the BS EN 16568:2023 standard is a comprehensive guide to automotive fuels, specifically focusing on blends of Fatty Acid Methyl Ester (FAME) with diesel fuel. It provides a reliable method for determining the oxidation stability of these blends, helping to ensure their quality and performance. With its detailed guidelines and up-to-date information, this standard is an essential resource for professionals in the automotive and fuel industries.

Don't compromise on quality and safety. Choose the BS EN 16568:2023 standard for your automotive fuel needs.

DESCRIPTION

BS EN 16568:2023


This standard BS EN 16568:2023 Automotive fuels. Blends of Fatty acid methyl ester (FAME) with diesel fuel. Determination of oxidation stability by rapidly accelerated oxidation method at 120 °C is classified in these ICS categories:
  • 75.160.20 Liquid fuels
This document specifies a test method for the determination of the oxidation stability at 120 °C of fuels for diesel engines, by means of measuring the induction period of the fuel up to 20 h. The method is applicable to blends of FAME with petroleum-based diesel having a FAME content in the range between 2 % (V/V) and 50 % (V/V). NOTE 1 An almost identical test method for oxidation stability at 110 °C is described in EN 15751 [1], which applies to pure FAME and diesel/FAME blends containing 2 % (V/V) of FAME at minimum. Other alternative test methods for the determination of the oxidation stability of distillate fuels are described in CEN/TR 17225 [3]. NOTE 2 The precision of this method was determined using samples with a maximum induction period of approximately 20 h. Higher induction periods are not covered by the precision statement; however, experience from EN 15751 indicates sufficient precision up to 48 h. NOTE 3 The presence of cetane improver can reduce the oxidation stability determined by this test method. Limited studies with 2-ethyl hexyl nitrate (EHN) indicated that the stability is reduced to an extent which is within the reproducibility of the test method. NOTE 4 For the purposes of this document, the term "% (V/V)" is used to represent the volume fraction.