Page 160 - Chem Service 2016 Catalogue
P. 160

METHOD 603 - ACROLEIN & ACRYLONITRILE

          Method 603 is a purge and trap gas chromatographic (GC) method applicable for the determination of acrolein and acrylonitrile.
         ACROLEIN & ACRYLONITRILE MIXTURE                     ACROLEIN & ACRYLONITROLE STANDARDS
         EPA METHOD 603                                       EPA METHOD 603
         Acrolein
         Acrylonitrile                                        N-11030-1G          Acrolein                           EPA 600
                                                              S-11030F1-1ML     100ug/mL in Methanol
         1000ug/mL in Water-                  (2 components)  S-11030F1-5ML     100ug/mL in Methanol
         M-EPA603ACRF4-1ML               1mL Ampule
                                                              N-11034-1G        Acrylonitrile
                                                              S-11034M1-1ML     100ug/mL in Methanol
                                                              S-11034M1-5ML     100ug/mL in Methanol
                                                              S-11034M4-1M L    1000ug/mL in Methanol
                                                              S-11034M4-5ML     1000ug/mL in Methanol
            METHOD 604 - PHENOLS
          Method 604 is a flame ionization detector gas chromatographic (GC/FID) method applicable to the determination of  Phenol and certain
          substituted phenols in municipal and industrial discharges as provided under 40 CFR 136.1.  This method describes analytical conditions for
          derivatization, cleanup, and electron capture detector gas chromatography (GC/ECD) that can be used to confirm measurements made by
          GC/FID.  Method 625 provides gas chromatograph/ mass spectrometer (GC/MS) conditions appropriate for the qualitative and quantitative
          confirmation of results for all of the parameters listed in the method, using the extract produced by this method.


          Method  604.1  is  an  HPLC  method  applicable  for  the  determination  of  Hexachlorophene  and  Dichlorophen  in  industrial  and  municipal
          wastewaters.  The liquid chromatographic conditions  described permit the separation and measurement of the compounds in the extract by
          HPLC using an ultraviolet detector.
         PHENOLS
         EPA METHOD 604, 625/1625, 8270B
         4-Chloro-3-methyl phenol           2,4-Dimethylphenol               2-Nitrophenol
         Phenol                            2-ChlorophenoL                    4,6-Dinitro-o-cresol
         4-Nitrophenol                     2,4,6-Trichlorophenol             2,4-Dichlorophenol
         2,4-Dinitrophenol                 Pentachlorophenol
         Varied conentration in Methanol -          (11 components)
         M-PP2M99-1ML                       1mL Ampule
         2000ug/mL in Methylene chloride -       (11 components)
         M-PPHC9X5-1ML                          1mL Ampule
         M-PPHC9X5-5ML                          5mL Ampule

         DERIVATIZING AGENTS
         EPA METHOD 604, 604.1, 8040A
         N-12842-1G     Pentafluorobenzylbromide
         N-12176-1G     Hexaoxacyclooctadecane

            METHOD 605 - Benzidines
          Method 605 is a high performance liquid chromatography (HPLC) method applicable to the determination of the listed benzidines in municipal
          and industrial discharges.  The final benzidine compounds are measured with an electrochemical detector.
         BENZIDINE
         EPA METHOD 605, 625/1625, 8270B, CLP
         Benzidine
         3,3-Dichlorobenzidine
         2000ug/mL in Methanol -             (2 components)
         M-PPHC7M5-1ML                       1mL Ampule
         M-PPHC7M5-5ML                       5mL Ampule


          The Chem Service Difference.
          Our Standards Grade Solutions and Mixtures have been reviewed for possible solvent reactions and reactions with the other
          components. Every solution has weighed out components and is analytically compared with an independently prepared solution.







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