‘2710 19 11 to 2710 19 29

Medium oils

See additional note 2(c) to this chapter.

Kerosene is used for a wide range of different purposes, for example as fuel for airplanes engines or for heating.

Kerosene is a medium oil with a distillation range according to the EN ISO 3405 method (equivalent to the ASTM D 86 method) approximately between 130 °C to 320 °C.

The images attached to this explanatory note are merely indicative of chromatograms of one category of products classifiable in each of the three subheadings concerned.’

‘2710 19 21

Jet fuel

This subheading covers kerosene type jet fuel. This jet fuel complies with the provisions of additional note 2(c) to this chapter.

The gas chromatographic profile of kerosene-type jet fuel, for instance the most commonly used jet fuel A-1, is characteristic of an oil obtained by the distillation of a crude oil and also by other petrochemical processes. The chain length of the alkanes varies between about 10 and 18 carbon atoms. The aromatic content may be up to 25 % by volume. Its flash point is generally above 38 °C according to the ISO 13736 method. The freezing point is usually not above –40 °C.

Jet fuel may contain the following additives: antioxidants, corrosion inhibitors, icing inhibitors, tracer dyes.

GAS CHROMATOGRAPHIC PROFILE OF JET FUEL TYPE A-1 (KEROSENE) SimDis ASTM D 2887 extended (equivalent to the ISO 3924 method)

’

‘2710 19 25

Other

This subheading covers kerosene other than jet fuel. The kerosene of this subheading complies with the provisions of additional note 2(c) to this chapter.

The gas chromatographic profile of ‘other’ kerosene is characteristic of an oil obtained by the distillation of a crude oil.

This subheading also includes:

In some cases chemical markers are present.

This subheading excludes mixtures of kerosene with other mineral oils or organic solvents.

GAS CHROMATOGRAPHIC PROFILE OF KEROSENE OTHER THAN JET-FUEL SimDis ASTM D 2887 extended (equivalent to the ISO 3924 method)

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‘2710 19 29

Other

This subheading covers medium oils other than kerosene of subheadings 2710 19 21 and 2710 19 25. The oils of this subheading comply with the provisions of additional note 2(c) to this chapter.

Usually, products of this subheading are obtained by one or more chemical-physical processes which can significantly alter the chemical composition of those products so as to make them suitable for certain industrial uses. In certain cases, the modification of molecular composition of those products can be detected using GC or SimDis while for other kinds of products more accurate determinations are necessary (e.g. gas chromatography–mass spectrometry (GC-MS)).

An example of a SimDis profile of these oils is represented by n-paraffin as shown below.

GAS CHROMATOGRAPHIC PROFILE OF A N-PARAFFIN SimDis ASTM D 2887 extended (equivalent to the ISO 3924 method)

Another example of products of this subheading are those obtained by a multistep process that includes:

These products consist of saturated hydrocarbons, mainly branched and cyclic, with an aromatic content far less than 1 %. An example of a SimDis profile for this kind of products is shown below:

ASTM D2887 extended (equivalent to the ISO 3924 Method)

Boiling point (°C)

The use of GC-MS technique may deliver a profile like that shown below as an example:

GC-MS total ion chromatogram (TIC)

This profile has been obtained with the following experimental conditions:

This profile shows the following distribution: