ASTM D36 · ASTM D56 · ASTM D86 · ASTM D92 · ASTM D93 · ASTM D97 · ASTM D · ASTM D · ASTM D · HGT / Gum Testers · HGT The general procedure for the determination of the gum content in fuels is described in the following standards: ASTM D (“Standard Test Method for Gum. ASTM D(). Standard Test Method for Gum Content in Fuels by Jet Evaporation. standard by ASTM International, 07/01/ View all product details.
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With respect to atm turbine fuels, large quantities of gum are indicative of contamination of fuel by higher boiling oils or particulate matter and generally reflect poor handling practices in distribution downstream of the refinery. Historical Version s – view previous versions of standard Translated Version s: The use of air, on the other hand, is used for testing motor gasoline.
Existent Gum Solid Block Bath | ASTM D | IP
The residue is washed with heptane after the evaporation to remove any additives the gasoline was initially blended with. For specific warning statements, see 6. In contrast to the ASTM and ISO method, the IP method allows both air or steam as the evaporating medium for examining aviation turbine fuels but requires air for testing motor gasoline. It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.
Seta Existent Gum Solid Block Bath – Steam or Air
Referenced Documents purchase separately The documents listed below are referenced within the subject standard but are not provided as part of the standard. During the test procedure, a measured quantity of fuel 50 mL is evaporated under controlled temperature conditions by a constant flow of either hot air or steam, depending on the sample. No other units of measurement are included in this standard.
How to measure the gum content of fuels. Link to Active This link will always route to the current Active version of the standard.
This asttm can be a result of, e. In this case, the beaker containing the residue is weighed before and after the washing procedure. Since many motor gasolines are purposely blended with nonvolatile oils or additives, the heptane extraction step is necessary to remove these from the evaporation residue so that the deleterious material, gum, may be determined.
Large quantities of gum are an indicator for the contamination of fuel caused by higher boiling oils or particles. Anton Paar has once again redefined digital density measurement with the groundbreaking invention of a new measuring principle: The quality of different fuels, e. For motor gasoline an additional treatment is necessary: The amount of gum should be as low as possible since the use of fuels with high gum contents can lead to deposits in induction systems or cause intake valves and fuel injectors to stick.
Generally, sstm gum content reflects inappropriate production processes and poor fuel handling in the refinery or the storage facility. Caution should be taken when handling mercury and mercury ashm products. Density Redefined Anton Paar has once again redefined digital density measurement with the groundbreaking invention of a new measuring principle: This is the reason why stabilizing agents, such as oxidation inhibitors, are added in order to increase the fuel stability.
Historical Version s – view previous versions of standard. The primary purpose of the test method, as applied to motor gasoline, is the measurement of the oxidation products formed in the sample prior to or during the comparatively mild conditions of the test procedure.
The general procedure for the determination of the gum content in fuels is described in the following standards: How can I measure the gum content? Gum can also be caused by chemical reactions of some fuel components with each other or with oxygen.
The amount of gum indicates the condition of the sample at the time of the measurement. Mercury, or its vapor, may be hazardous to health and corrosive to materials. The xstm containing the sample is weighed before and after the evaporation to determine the weight of the gum content, which is then reported as milligrams per mL.
The gum content is the nonvolatile residue that is left after the evaporation of the sample under controlled conditions. Why is measuring the gum content important? Since the gum content can change according xstm the age of the fuel and the exposure to oxygen, the reported content is only true at the time of measurement.