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ISO 4264:2018

Current

Current

The latest, up-to-date edition.

Petroleum products — Calculation of cetane index of middle-distillate fuels by the four variable equation

Available format(s)

Hardcopy , PDF , PDF 3 Users , PDF 5 Users , PDF 9 Users

Language(s)

English, French

Published date

06-22-2018

US$73.00
Excluding Tax where applicable

This document specifies a procedure for the calculation of the cetane index of middle-distillate fuels from petroleum-derived sources. The calculated value is termed the "cetane index by four-variable equation". Throughout the remaining text of this document, the term "cetane index" implies cetane index by four-variable equation.

This document is applicable to fuels containing non-petroleum derivatives from tar sand and oil shale. It is not applicable to pure hydrocarbons, nor to distillate fuels derived from coal. Cetane index calculations do not take into account the effects from additives used to enhance the Cetane number.

NOTE 1 This document was originally developed using a matrix of fuels, some of which contain non-petroleum derivatives from tar sands and oil shale.

NOTE 2 The cetane index is not an alternative way to express the cetane number; it is a supplementary tool, to be used with due regard for its limitations.

NOTE 3 The cetane index is used to estimate the cetane number of diesel fuel when a test engine is not available to determine this property directly, or when insufficient sample is available for an engine rating.

The most suitable range of fuel properties for application of this document is as follows:

Fuel property

Range

Cetane number

32,5 to 56,5

Density at 15 °C, kg/m3

805,0 to 895,0

10 % (V/V) distillation recovery temperature, °C

171 to 259

50 % (V/V) distillation recovery temperature, °C

212 to 308

90 % (V/V) distillation recovery temperature, °C

251 to 363

Within the range of cetane number (32,5 to 56,5), the expected error of the prediction via the cetane index equation will be less than ±2 cetane numbers for 65 % of the distillate fuels examined. Errors can be greater for fuels whose properties fall outside this range of application.

As a consequence of sample-specific biases observed, the expected error can be greater even when the fuel's properties fall inside the recommended range of application. Therefore, users can assess the required degree of prediction agreement to determine the fitness-for-use of the prediction.

NOTE 4 Sample specific biases were observed for distillate fuels containing FAME (fatty acid methyl ester).

Committee
ISO/TC 28
DocumentType
Standard
Pages
9
PublisherName
International Organization for Standardization
Status
Current
Supersedes

Standards Relationship
IS 1448 : Part 174 : 2020 Identical
UNE-EN ISO 4264:2019 Identical
NF EN ISO 4264 : 2018 Identical
PN-EN ISO 4264 : 2018-08 Identical
SN EN ISO 4264 : 2018 Identical
EN ISO 4264:2018 Identical
BS EN ISO 4264:2018 Identical
UNI EN ISO 4264:2019 Identical

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