Información técnica |
|
General |
Sulfur Chemiluminescence Detector
Analizador específico de azufre
Nitrogen Chemiluminescence Detector
Dual Plasma Sulfur and Nitrogen Chemiluminescence Detectors
• 300 00036: Separation of Carbonyl Sulfide and Hydrogen Sulfide
• 300 00038: Thiophene in Benzene
• 300 00039: Sulfur Simulated Distillation
• 300 00043: Sulfur Compounds in Ethylene and Propylene
• 300 00044: Total Sulfur Laboratory Analysis using the Model 355 SCD
• 300 00047: Trace Sulfur Components Analysis in Gases (by Arnel)
• 300 00028: Analysis of Trace Nitrogen Species in Benzene
• 300 00025: Analysis of Adhesive Samples Using the NCD
• 300 00025: Simultaneous Hydrocarbon Analysis with the NCD and an FID
• 300 00027: Nitrosamine Analysis by GC/NCD
• 300 00029: Measurement of Nitric Oxide in Ethylene by Gas Chromatography
and Chemiluminescence Detection
• 300 00030: Sulfur Compounds in Air
• 300 00031: Dimethylsulfide in Beer Malt
• 300 00032: Sulfur Dioxide in Beer
• 300 00033: Volatile Sulfur Compounds in Beer
• 300 00037: Sulfur Compounds in Peppermint Oil
• 300 00041: Wine Samples
• 300 00045: Sulfur Speciation in Grapefruit Juice
• 300 00048: Impurities In Beverage CO2 Analyzers, Model 4025/4030/4031/4038 (by Arnel)
• 300 00049: Volume 9.11, Low Level Analysis of Sulfur Compounds in Beer (by Tekmar)
• 300 00027: Nitrosamine Analysis by GC/NCD
• 300 00050: Analysis of Odorants and Other Sulfur Compounds in Natural Gas
• 300 00034: Sulfur Compounds in Light Petroleum Liquids such as Gasoline
• 300 00035: Sulfur Compounds and Copper Strip Corrosion
• 300 00036: Separation of Carbonyl Sulfide and Hydrogen Sulfide
• 300 00039: Sulfur Simulated Distillation
• 300 00040: Odorants and Other Sulfur Compounds in Liquefied Petroleum and Natural Gases
• 300 00042: Sulfur Compounds in Distillate Fuels
• 300 00043: Sulfur Compounds in Ethylene and Propylene
• 300 00044: Total Sulfur Laboratory Analysis using the Model 355 SCD
• 300 00046: Gas Chromatography and Sulfur Chemiluminescence Detection for Low Sulfur Fuel
• 300 00047: Trace Sulfur Components Analysis in Gases (by Arnel)
• 300 00024: Successful Detection Using the NCD
• 300 00026: Simultaneous Hydrocarbon Analysis with the NCD and an FID
Chemical and Petrochemical Literature
Papers
Brassard, B.; Tang, H.; Heaton, P. “Analysis of Trace COS in Samples with High Concentrations of H2S by Gas Chromatography and a Sulfur Chemiluminescence Detector,” Pittsburgh Conference (1996).
MacTaggart, D.; Farwell, S.; Harrkenson, T.; Bamesberger, W.; Dorko, W. “Generatin and Evaluation of Test Gas Mixtures for the Gas-phase Sulfur Intercomarison Experiment,” J Geophys Res (1997): 102 (D13): 16,237–16,245.
Shearer, R. L. and Meyer, L. M. “Simultaneous Measurement of Hydrocarbons and Sulfur Compounds Using Flame Ionization and Sulfur Chemiluminescence Detection for Sulfur Simulated Distillation,” J High Resol Chromatogr
Environmental Literature
Papers
Sulfur Chemiluminesce Detection
Benner, R. L. and Stedman, D. H. “Field Evaluation of the Sulfur Chemiluminescence Detector,” Environmental Science Technology 24, no. 10, 1592–1596.
Benner, R.L. and Jodwalis C. M. “Sulfur Gas Fluxes and Horizontal Inhomogeneities in the Marine Boundary Layer,” J. of Geophysical Research 101, no. D2 (February 1996): 4393–4401.
Benner, R. L. and Jodwalis, C. M. “On the Possibility of Remotely Sensing Global DimethylSulfideSea-to- Air Flux,” Polar Record 31(177) (1995): 251-256.
Dominguez, R.; Wadley, M. W.; Camarena, E. “G.C. Detection of Volatile Sulfur Compounds: An Evaluation of Sulfur Chemiluminescence Detectors,” Technical Services Division Report, SouthCoast Air Quality Management Division.
Gaines, K. K.; Chatham, W. H.; Farwell, S. O. “Comparison of the SCD and FPD for HRGC Determination of Atmospheric Sulfur Gases,” Journal of High Resolution Chromatography 13, 489–493.
Johansen, N. G.; Hutte, R. S.; Legier, M. F. “Gas Chromatography Detectors Based on Chemiluminescence for the Determination of Pesticides. Monitoring Water in the 1990's: Meeting New Challenges,” ASTM STP 1102, American Society for Testing and Materials (1991): 255–266.
Schorran, D.E.; Fought C.; Miller, D.F.; Coulombe, W.G.; Keislar, R.E. “Semicontinuous Method for Monitoring SO2 at Low Parts-per-Trillion Concentrations,” Environmental Science Technology 28 (1994) 1307–1311.
Supelco “Monitor Sulfur Compounds in Gaseous Hydrocarbons and Air Samples Using the New SPB-1 Sulfur Capillary Column,” Separation Technologies Update (May 1991).
Food & Beverage Literature
Papers
“Chemists' Report of the Subcommittee of Dimethyl Sulfide in Beer by Chemiluminescence Detector,” J. Am. Soc. Brewing Chemists (1994): 55.
American Society of Brewing Chemists “Report of the Subcommittee of Dimethyl Sulfide in Beer by Chemiluminescence Detector,” J. Am. Soc. Brewing Chemists 51 (1993): 172.
Burmeister, M. S.; Drummond, C. J.; Pfisterer, E. A.; Hysert, D. W.; Sin, Y. O.; Sime, K. J.; Hawthorne, D. B. “Measurement of Volatile Sulfur Compounds in Beer using Gas Chromatography with a Sulfur Chemiluminescence Detector,” Journal of the American Society of Brewing Chemists 50, 53–58.
Dercksen, A.; Laurens, J.; Torline, P.; Axcell, B.C.; Rohwer, E. “Quantitative Analysis of Volatile Sulfur Compounds in Beer Using a Membrane Extraction Interface,” American Society of Brewing Chemists 54, no. 4 (1996): 228-233.
Johansen, N. J.; Plam, M.; Legier, M. “Detection of Sulfur Compounds in Hop Oils with a Novel Sulfur-Selective Detector for Gas Chromatography,” Brewers Digest, 36–37.
MacNamara, K.; Brunerie, P.; Squarcia, F.; Rozenblum, A. “Investigation of Flavour Compounds in Whiskey Spent Lees.,” Developments in Food Science 37B, Proceedings of the 8th International Flavor Conference, COS, Greece (1994): 1753–1766.
Nedjma, M. and Maujean A. “Improved Chromatographic Analysis of Volatile Sulfur Compounds by the Static Headspace Technique on Water-Alcohol Solutions and Brandies with Chemiluminescence Detection,” J. of Chromatography A 704 (1995): 495–502.
Tuan, H. P.; Janssen H.; Kuiper-van Loo, E. M.; Vlap, H. “Improved Method for the Determination of Sulfur Components in Natural Gas,” J. of High Resolution Chromatography 18 (September 1995): 525–534.
Sulfur and Nitrogen Chemiluminescence Detectors
Related Websites and Resources
American Chemical Society
American Petroleum Institute
American Society of Brewing Chemists
American Society of Testing & Materials
Chemical Manufacturers Association
Food and Drug Administration
Gas Research Institute
Agilent Technologies,Chemical Analysis Group
Institute of Gas Technology
Scott Specialty Gases
The Chemiluminescence Home Page
U.C. Davis Department of Viticulture and Enology
U.S. Department of Agriculture
U.S. Environmental Protection Administration
World Food Net
In order to keep our site current for our users, if any of these links do not work, please e-mail us
