PRICES include / exclude VAT
Homepage>BS Standards>75 PETROLEUM AND RELATED TECHNOLOGIES>75.080 Petroleum products in general>BS 2000-13:1994 Methods of test for petroleum and its products Petroleum products. Determination of carbon residue. Conradson method
Sponsored link
immediate downloadReleased: 1994-03-31
BS 2000-13:1994 Methods of test for petroleum and its products Petroleum products. Determination of carbon residue. Conradson method

BS 2000-13:1994

Methods of test for petroleum and its products Petroleum products. Determination of carbon residue. Conradson method

Format
Availability
Price and currency
English Secure PDF
Immediate download
151.20 EUR
You can read the standard for 1 hour. More information in the category: E-reading
Reading the standard
for 1 hour
15.12 EUR
You can read the standard for 24 hours. More information in the category: E-reading
Reading the standard
for 24 hours
45.36 EUR
English Hardcopy
In stock
151.20 EUR
Standard number:BS 2000-13:1994
Pages:14
Released:1994-03-31
ISBN:0 580 41666 6
Status:Standard
DESCRIPTION

BS 2000-13:1994


This standard BS 2000-13:1994 Methods of test for petroleum and its products is classified in these ICS categories:
  • 75.080 Petroleum products in general

This International Standard specifies a method for determining the amount of carbon residue, in the range of 0,01 % (m/m) to 30,0 % (m/m), left after evaporation and pyrolysis of an oil, and is intended to provide some indication of relative coke-forming tendency. The method is generally applicable to relatively non-volatile petroleum products which partially decompose on distillation at atmospheric pressure. Petroleum products containing ash-forming constituents as determined by ISO 6245 will exhibit an erroneously high carbon residue, depending upon the amount of ash formed.

NOTES

  1. The term "carbon residue" is used throughout this In-ternational Standard to designate the carbonaceous residue formed after evaporation and pyrolysis of a petroleum product. The residue is not entirely composed of carbon, but is a coke which can be further changed by pyrolysis. The term "carbon residue" is retained in this method only in deference to its widespread use.
  2. Values obtained by this method are not numerically the same as those obtained by ISO 4262, nor have satisfactory correlations been found between the results obtained by the two methods for all materials which may be tested, because the carbon residue test is applied to a wide variety of petroleum products. The Conradson carbon residue is finding use to characterize heavy residue fuel, coker feed stocks, etc., which cannot readily be loaded into a Ramsbottom coker bulb, and when it is desirable to examine or further test the residue. ISO 10370 (micro method) gives results similar to this method on a wide range of petroleum products, and may in time replace both this method and ISO 4262.
  3. The carbon residue of distillate and residual fuel oils gives an approximate ranking of such fuels in terms of their propensity to form deposits in specific applications.
  4. The presence of alkyl nitrates in distillate fuels, or ash-forming additives in either distillate or residue fuels, will give carbon residue results that are higher than the corresponding values on the fuel without additives. These values may not correlate with the propensity of a fuel to form deposits.
  5. The carbon residue of base lubricating oils may give an indication of the propensity of the oil to lay down deposits in combustion chambers, and/or of the relative chemical constitution of oils of similar viscosity. Most finished lubri-cating oils contain ash-forming additives, and thus the car-bon residue of finished lubricants cannot be used in this manner.
  6. The carbon residue of a gas oil is a useful guide in the manufacture of gas.

Identical with IP 13/94.