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ASTM International - ASTM UOP703-09

Carbon on Catalysts by Induction Furnace Combustion and Infrared Detection

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Organization: ASTM International
Publication Date: 1 March 2009
Status: active
Page Count: 7
scope:

This method is for determining total carbon on catalysts and in other inorganic materials using a high temperature induction furnace carbon analyzer. The method is generally applied over a range of 0.01 to 20 mass-% carbon; however, up to 100 mass-% carbon can be determined with appropriate calibration. On used catalyst, the carbon may be present as coke and/or hydrocarbons. If only the carbon present as coke is desired, hydrocarbons are removed by extraction prior to analysis, as described in UOP Method 602, Soxhlet Extraction of Catalysts. Analysis of catalysts containing light hydrocarbons can be problematic due to thermal loss of the hydrocarbons before controlled combustion occurs. For such materials, other methods, such as ASTM D5291, Instrumental Determination of Carbon, Hydrogen, and Nitrogen in Petroleum Products and Lubricants, should be utilized.

Analyzers that utilize combustion tube, rather than induction furnace technology may be used if it can be proven that they yield precision data at least as good as that listed herein.

Document History

ASTM UOP703-09
March 1, 2009
Carbon on Catalysts by Induction Furnace Combustion and Infrared Detection
This method is for determining total carbon on catalysts and in other inorganic materials using a high temperature induction furnace carbon analyzer. The method is generally applied over a range of...
July 29, 2002
Carbon on Catalysts by Induction Furnace Combustion and Infrared Detection
This method is for determining total carbon on catalysts and in other inorganic materials using a high temperature induction furnace analyzer. The method is generally applied over a range of 0.01 to...
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