Refining Applications and Technical Overviews
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Refinery Gas Applications
| Pub No. |
Title |
| 5989-9234EN |
Detection of Sulfur Compounds in Natural Gas According to ASTM D5504 with Agilent's Dual Plasma Sulfur Chemiluminescence Detector (G6603A) on the 7890A Gas Chromatograph |
|
5989-7438EN |
Parallel GC for Complete RGA Analysis |
|
5989-7437EN |
Parallel GC for Complete Refinery Gas Analysis |
|
5965-7824E |
Trace Level Hydrocarbon Impurities in Ethylene and Propylene |
|
5988-5296EN |
Analysis of Fuel Cell Reformer Gases in Seconds Using the Agilent 3000 Micro Gas Chromatograph |
|
5988-6700EN |
Complete Analysis of Refinery Gases in Seconds Using the Agilent 3000 Micro Gas Chromatograph |
|
5988-9942EN |
Use of the New 5973 inert for Determination of Low-Level Volatile Sulfur in Gaseous Streams |
|
5988-4453EN |
Use of GC/MSD for Determination of Volatile Sulfur: Application in Natural Gas Fuel Cell Systems and Other Gaseous Streams |
|
5988-2791EN |
Volatile Sulfur in Natural Gas, Refinery Gas, and Liquified Petroleum Gas |
|
5988-8904EN |
Dual-Channel Gas Chromatographic System for the Determination of Low-Level Sulfur in Hydrocarbon Gases |
|
5988-9257EN |
The Analysis of Light Hydrocarbons Using the Agilent 6820 Gas Chromatograph |
|
5988-9258EN |
Determination of Low Level Hydrocarbon Impurities in Propylene Using the Agilent 6820 Gas Chromatograph |
|
5988-2464EN |
Analysis of Trace Sulfur Compounds in Beverage Grade Carbon Dioxide |
|
5989-6082EN |
Simultaneous Analysis of Trace Oxygenates and Hydrocarbons in Ethylene Feedstocks Using Agilent 7890A GC Capillary Flow Technology |
|
5988-2465EN |
Automated Dynamic Blending System for the Agilent 6890 Gas Chromatograph: Low Level Sulfur Detection |
|
5989-8037EN |
High-Pressure Injection Device for the Agilent 7890A and 6890 Series Gas Chromatographs Accessory |
|
5989-6081EN |
High-Pressure Liquid Injection Device for the Agilent 7890A and 6890 Series Gas Chromatographs |
Gasoline/Naphtha/Reformulated Fuels Applications
|
Pub No. |
Title |
|
5990-4493EN |
 An Alternative Application for a Highly Oxygen-Selective Capillary GC Plot Column
|
|
5989-9233EN |
Detection of Sulfur Compounds According to ASTM D5623 in Gasoline with Agilent's Dual- Plasma Sulfur Chemiluminescence Detector (G6603A) and an Agilent 7890A Gas Chromatograph |
|
5989-8060EN |
Comprehensive GC System Based on Flow Modulation for the 7890A GC |
|
5988-9880EN |
Quantification and Characterization of Sulfur in Low Sulfur Reformulated Gasolines by GC-ICP-MS |
|
5989-4147EN |
Direct Elemental Analysis of Gasoline by Agilent 7500ce ORS ICP-MS |
|
5988-9944EN |
Optimizing the 6890 Series GC for High Performance MS Analysis |
|
5989-0093EN |
Improved Performance for the Analysis of Aromatics in Gasoline by ASTM Method D5769 Using the Agilent 5973 inert GC/MS System |
|
5989-1336EN |
Determining Aromatics in Finished Gasoline Using the Agilent 6820 GC System |
|
5989-1338EN |
Determination of Benzene and toluene in Finished Motor and Aviation Gasoline with the Agilent 6820 GC System using ASTM Method D3606 |
|
5989-1337EN |
Running ASTM Method D4815 for Determining Oxygenates in Gasoline on the Agilent 6820 GC |
|
5988-6696EN |
Two-Dimensional Gas Chromatographic Analysis of Oxygenates and Aromatics in Gasoline Using a Heart-Cutting Technique |
|
5988-9261EN |
Analysis of Aromatic Hydrocarbons in Gasoline and Naphtha with the Agilent 6820 Series Gas Chromatograph and a Single Polar Capillary Column |
|
5964-0394E |
Determining Aromatics in Finished Gasoline: ASTM Method D 5580 |
|
5966-2798E |
Latest Enhancements to the GC/MS Analysis of Gasoline by ASTM Method D-5769 |
|
5988-9153EN |
Running ASTM Methods D4815 and D5580 on a Single Agilent 6890N Gas Chromatograph with Nitrogen Carrier Gas |
|
5963-9968E |
App Note: 228-324:Optimized Analysis of Gasoline (BTEX) in Water and Soil Using GC/FID with Purge and Trap |
|
5964-1729E |
Determining Oxygenates in Gasoline: ASTM Method D 4815 |
|
5964-1730E |
Determining Benzene in Finished Gasoline and Refinery Streams to Comply with CAA Requirements: ASTM Method D 3606 |
|
5966-3089E |
Improved Analysis of Sulfur, Nitrogen, and Other Heteroatomic Compounds in Gasoline- and Diesel-Range Materials Using GC/Atomic Emission Detection (Application Note 228-394) |
|
5980-0250E |
Agilent 6850 Sub-Ambient Oven Performance for ASTM D3710 Simulated Distillation of Gasoline |
|
5988-2426EN |
A Comparison of Sulfur-Selective Detectors for Low-Level Analysis in Gaseous Streams |
|
5963-9968E |
App Note: 228-324:Optimized Analysis of Gasoline (BTEX) in Water and Soil Using GC/FID with Purge and Trap |
|
5988-4475EN |
Enhancements in the Operation and Precision of an ASTM D4815 Analyzer for the Determination of Oxygenates in Gasoline |
Kerosene/Jet Fuel/Diesel/Heavy Oils/Wax/Other Applications
|
Pub No. |
Title |
|
5989-8771EN |
Investigation of the Unique Selectivity and Stability of Agilent GS-OxyPLOT Columns |
|
5990-3778EN |
Automated Preparation of Simulated Distillation Samples for ASTM Methods D2887, D7213, D7398 and D6352 using a Dual Tower 7693A and Tray System |
|
5990-3237EN |
Dual Channel Simulated Distillation of Carbon and Sulfur with the Agilent 7890A GC and 355 Sulfur Chemiluminescence Detector |
|
5990-3174EN |
Fast Hydrocarbon and Sulfur Simulated Distillation Using the Agilent Low Thermal Mass (LTM) System on the 7890A GC and 355 Sulfur Chemiluminescence Detector |
|
5989-6078EN |
Comprehensive Flow Modulated Two-Dimensional Gas Chromatography System |
|
5989-4073EN |
Fast Simulated Distillation Based on Agilent 6890N Gas Chromatograph |
|
5989-2727EN |
High-Temperature Simulated Distillation System Based on the Agilent 6890N GC |
|
5989-2726EN |
Simulated Distillation System for ASTM D2887, Based on the Agilent 6890N GC |
|
5988-7929EN |
Higher-Temperature Simulated Distillation with DB-HT Sim Dis Columns |
|
5966-3089E |
Improved Analysis of Sulfur, Nitrogen, and Other Heteroatomic Compounds in Gasoline- and Diesel-Range Materials Using GC/Atomic Emission Detection (Application Note 228-394) |
|
5965-9044E |
Analysis of Aromatic Hydrocarbons in Middle Distillates with HPLC using IP Standard Method 391/95 |
|
5988-8993EN |
Analysis of Low Concentration Oxygenates in Environmental Water Samples Using Purge and Trap Concentration and Gas Chromatography/Mass Spectrometry |
|
5989-6012EN |
Evaluation of total Petroleum Hydrocarbon in Soil Using LC with Fraction Collector and GC/MS |
|
5989-6160EN |
Handbook of Hyphenated ICP-MS Applications |
|
5989-6018EN |
Improving Productivity and Extending Column Life with Backflush |
|
5988-9011EN |
Using Agilent ChemStation to generate summary reports for a single analysis of a sequence of analyses |
|
5965-7442E |
Analysis of Sulfur and Phosphorus Compounds with a Flame Photometric Detector on the Agilent 6890 Series Gas Chromatograph |
|
5988-5271EN |
Increasing Sample Throughput with High-Speed Megabore Columns |
|
5988-8533EN |
Using Statistical Peak Identification |
|
5980-3023EN |
J&W Capillary Columns for GC/MS and Trace Analysis from Agilent Technologies |
|
5965-7673E |
Predictable Translation of Capillary Gas Chromatography Methods for Fast GC |
|
5966-2469E |
Retention Time Locking: Concepts and Applications |
|
5966-1461E |
Applications of Retention Time Locking in Simulated Distillation |
|
5965-9057E |
Analysis of Sudan Red in Diesel Oil using HPLC |
Technical Overviews
|
Pub No. |
Title |
|
5989-6771EN |
Agilent Model 255 Nitrogen Chemiluminescence Detector (NCD) Analysis of Adhesive Samples Using the NCD |
|
5989-6792EN |
Laboratory Total Sulfur Analysis by Gas Chromatography and Agilent Model 355 SCD |
|
5989-6791EN |
Agilent 355 Sulfur Chemiluminescence Detector (355 SCD): Sulfur Compounds in Ethylene and Propylene |
|
5989-6794EN |
Gas Chromatography and Sulfur Chemiluminescence Detection for Low-Sulfur Diesel |
|
5989-6790EN |
Agilent 355 Sulfur Chemiluminescence Detector (355 SCD): Sulfur Compounds in Distillate Fuels |
|
5989-6788EN |
Agilent 355Sulfur Chemiluminescence Detector (355 SCD): Odorants and Other Sulfur Compounds in Liquefied Petroleum and Natural Gases |
|
5989-6787EN |
Agilent Model 355 Sulfur Chemiluminescence Detector (SCD): Sulfur Simulated Distillation |
|
5989-6786EN |
Agilent Model 355 Sulfur Chemiluminescence Detector (SCD): Thiophene in Benzene |
|
5989-6784EN |
Agilent 355 Sulfur Chemiluminescence Detector (355 SCD): Separation of Carbonyl Sulfide and Hydrogen Sulfide |
|
5989-6783EN |
Agilent Model 355Sulfur Chemiluminescence Detector (SCD): Sulfur Analysis Versus the Copper Strip Corrosion Test |
|
5989-6782EN |
Agilent 355Sulfur Chemiluminescence Detector (SCD): Sulfur Compounds in Light Petroleum Liquids Such as Gasoline |
|
5989-6778EN |
Sulfur Compounds in Air – Agilent Model 355 SCD |
|
5989-6772EN |
Agilent Model 255 Nitrogen Chemiluminescence Detector (NCD) Simultaneous Hydrocarbon Analysis with the NCD and an FID |
|
5989-6770EN |
Successful Detection Using the Agilent 255 Nitrogen Chemiluminescence |
|
5989-6447EN |
GS-OxyPLOT: A PLOT Column for the GC Analysis of Oxygenated Hydrocarbons |
|
5989-5111EN |
Simplified Backflush Using Agilent 6890 GC |
|
5989-0544EN |
Lock in the Power of Gas Chromatography with RTL - Improving Reliability and Precision Analyzing Oxygenates in Gasoline |
|