| Method |
Provider |
Description |
ASTM
D2887-97 |
AC
SSI |
Boiling Range Distribution of Petroleum Fractions |
ASTM
D2887 |
AC
Wasson |
High Speed Simulated Distillation of Petroleum fractions boiling up to 538°C - Fast ASTM D 2887 |
| IP 406/95 |
AC
Wasson |
Determination of Boiling Range Distribution of Petroleum Products |
IP CF/98
(proposed) |
AC
SSI |
Boiling Range Distribution of Lube oils, residues and crude oil |
ISO
3924 |
AC
Wasson |
Determination of Boiling Range Distribution of Petroleum Products |
DIN
51.435
part 1 |
AC |
Determination of Boiling Range Distribution of Petroleum Products |
| |
AC |
Boiling Range Distribution of Lube oil base stocks |
| |
Agilent
AC
SSI |
High Speed Simulated Distillation of Petroleum fractions boiling up to 538oC |
| |
Agilent |
Nickel, Sulfur and Other Element Analysis of High Boiling Refinery Liquids |
| |
Antek |
Sulfur Compounds in Distillates by GC-Chemiluminescence Detection |
| |
Antek |
Simultaneous Sulfur and Carbon Distribution in Mid-distillates Under D 2887 SimDis Conditions by GC-Chemiluminescence and Flame Ionization Detection |
| |
Antek |
Sulfur Distribution in Petroleum Distillates by Simultaneous HPLC-UV and Chemiluminescence Detection |
| |
AC |
Heavy Distillates Analysis by HPLC |
| |
AC |
Multi-Elemental Boiling Point Distribution Analysis Using the Atomic Emission Detector (AED) on Petrochemical Samples with a Final Boiling Point Below 650 ºF |
| |
SSI |
Determination of C1-C20 Fraction in Crude Oils, and FCC Feedstocks and Products by Gas Chromatography and Prefractionation |
| |
SSI |
Determination of C1-C20 Fraction in Crude Oils, and FCC Feedstocks and Products by Gas Chromatography and Prefractionation with Analysis of Heavy Fraction to Carbon 100+ |
| |
SSI |
Sulfur and Carbon Distribution in Light Petroleum Products by Simultaneous GC-FID and GC-Sulfur Specific Detection |
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