Item talk:Q68572: Difference between revisions

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= Determination of the &delta;<sup>34</sup>S of Total Sulfur in Solids: RSIL Lab Code 1800 =
{
The purpose of Reston Stable Isotope Laboratory Lab (RSIL) Code 1800 is to determine the δ(<sup>34</sup>S/<sup>32</sup>S), abbreviated as δ<sup>34</sup>S, of total sulfur in a solid sample. A Carlo Erba NC 2500 elemental analyzer (EA) is used to convert total sulfur in a solid sample into SO<sub>2</sub> gas. The EA is connected to a continuous flow isotope-ratio mass spectrometer (CF-IRMS), which determines the relative difference in stable sulfur isotope-amount ratio (<sup>34</sup>S/<sup>32</sup>S) of the product SO<sub>2</sub> gas. The combustion is quantitative; no isotopic fractionation is involved. Samples are placed in tin capsules and loaded into a Costech Zero-Blank Autosampler on the EA. Under computer control, samples are dropped into a heated tube reaction tube that combines both the oxidation and the reduction reactions. The combustion takes place in a He atmosphere that contains an excess of oxygen gas at the oxidation zone at the top of the reaction tube. Combustion products are transported by a He carrier through the reduction zone at the bottom of the reaction tube to remove excess oxygen and through a separate drying tube to remove any water. The gas-phase products, mainly CO<sub>2</sub>, N<sub>2</sub>, and SO<sub>2</sub>, are separated by a gas chromatograph (GC). The gas is then introduced into the isotope-ratio mass spectrometer (IRMS) through a Thermo-Finnigan ConFlo II interface, which also is used to inject SO<sub>2</sub> reference gas and He for sample dilution. The IRMS is a Thermo-Finnigan DeltaPlus CF-IRMS. It has a universal triple collector with two wide cups and a narrow cup in the middle. It is capable of measuring mass/charge (''m/z'') 64 and 66 simultaneously. The ion beams from SO<sub>2</sub> are as follows: ''m/z'' 64 = SO<sub>2</sub> = <sup>32</sup>S<sup>16</sup>O<sup>16</sup>O; and ''m/z'' 66 = SO<sub>2</sub> = <sup>34</sup>S<sup>16</sup>O<sup>16</sup>O primarily.
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      "name": "Determination of the \u03b434S of Total Sulfur in Solids: RSIL Lab Code 1800",
      "identifier": [
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          "url": "https://pubs.usgs.gov/publication/tm10C4"
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          "value": "10.3133/tm10C4",
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      "datePublished": "2006",
      "dateModified": "2013-02-11",
      "abstract": "The purpose of Reston Stable Isotope Laboratory Lab (RSIL) Code 1800 is to determine the \u03b4(34S/32S), abbreviated as \u03b434S, of total sulfur in a solid sample. A Carlo Erba NC 2500 elemental analyzer (EA) is used to convert total sulfur in a solid sample into SO2 gas. The EA is connected to a continuous flow isotope-ratio mass spectrometer (CF-IRMS), which determines the relative difference in stable sulfur isotope-amount ratio (34S/32S) of the product SO2 gas. The combustion is quantitative; no isotopic fractionation is involved. Samples are placed in tin capsules and loaded into a Costech Zero-Blank Autosampler on the EA. Under computer control, samples are dropped into a heated tube reaction tube that combines both the oxidation and the reduction reactions. The combustion takes place in a He atmosphere that contains an excess of oxygen gas at the oxidation zone at the top of the reaction tube. Combustion products are transported by a He carrier through the reduction zone at the bottom of the reaction tube to remove excess oxygen and through a separate drying tube to remove any water. The gas-phase products, mainly CO2, N2, and SO2, are separated by a gas chromatograph (GC). The gas is then introduced into the isotope-ratio mass spectrometer (IRMS) through a Thermo-Finnigan ConFlo II interface, which also is used to inject SO2 reference gas and He for sample dilution. The IRMS is a Thermo-Finnigan DeltaPlus CF-IRMS. It has a universal triple collector with two wide cups and a narrow cup in the middle. It is capable of measuring mass/charge (m/z) 64 and 66 simultaneously. The ion beams from SO2 are as follows: m/z 64 = SO2 = 32S16O16O; and m/z 66 = SO2 = 34S16O16O primarily.",
      "description": "viii, 31 p.; ill.; Appendices",
      "publisher": {
        "@type": "Organization",
        "name": "U.S. Geological Survey"
      },
      "author": [
        {
          "@type": "Person",
          "name": "Coplen, Tyler B. tbcoplen@usgs.gov",
          "givenName": "Tyler B.",
          "familyName": "Coplen",
          "email": "tbcoplen@usgs.gov",
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          },
          "affiliation": [
            {
              "@type": "Organization",
              "name": "WMA - Earth System Processes Division",
              "url": "https://www.usgs.gov/mission-areas/water-resources"
            },
            {
              "@type": "Organization",
              "name": "National Water Quality Program",
              "url": "https://www.usgs.gov/programs/national-water-quality-program"
            },
            {
              "@type": "Organization",
              "name": "WMA - Laboratory & Analytical Services Division",
              "url": "https://www.usgs.gov/mission-areas/water-resources"
            },
            {
              "@type": "Organization",
              "name": "National Research Program - Eastern Branch",
              "url": "https://www.usgs.gov/centers/arizona-water-science-center"
            }
          ]
        },
        {
          "@type": "Person",
          "name": "Revesz, Kinga",
          "givenName": "Kinga",
          "familyName": "Revesz"
        }
      ],
      "funder": [
        {
          "@type": "Organization",
          "name": "Reston Stable Isotope Laboratory",
          "url": "https://www.usgs.gov/labs/reston-stable-isotope-laboratory"
        }
      ]
    }
  }
}

Latest revision as of 03:06, 15 August 2024

{ 

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     "@type": "CreativeWork",
     "additionalType": "USGS Numbered Series",
     "name": "Determination of the \u03b434S of Total Sulfur in Solids: RSIL Lab Code 1800",
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         "url": "https://pubs.usgs.gov/publication/tm10C4"
       },
       {
         "@type": "PropertyValue",
         "propertyID": "USGS Publications Warehouse Internal ID",
         "value": 79778
       },
       {
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     ],
     "datePublished": "2006",
     "dateModified": "2013-02-11",
     "abstract": "The purpose of Reston Stable Isotope Laboratory Lab (RSIL) Code 1800 is to determine the \u03b4(34S/32S), abbreviated as \u03b434S, of total sulfur in a solid sample. A Carlo Erba NC 2500 elemental analyzer (EA) is used to convert total sulfur in a solid sample into SO2 gas. The EA is connected to a continuous flow isotope-ratio mass spectrometer (CF-IRMS), which determines the relative difference in stable sulfur isotope-amount ratio (34S/32S) of the product SO2 gas. The combustion is quantitative; no isotopic fractionation is involved. Samples are placed in tin capsules and loaded into a Costech Zero-Blank Autosampler on the EA. Under computer control, samples are dropped into a heated tube reaction tube that combines both the oxidation and the reduction reactions. The combustion takes place in a He atmosphere that contains an excess of oxygen gas at the oxidation zone at the top of the reaction tube. Combustion products are transported by a He carrier through the reduction zone at the bottom of the reaction tube to remove excess oxygen and through a separate drying tube to remove any water. The gas-phase products, mainly CO2, N2, and SO2, are separated by a gas chromatograph (GC). The gas is then introduced into the isotope-ratio mass spectrometer (IRMS) through a Thermo-Finnigan ConFlo II interface, which also is used to inject SO2 reference gas and He for sample dilution. The IRMS is a Thermo-Finnigan DeltaPlus CF-IRMS. It has a universal triple collector with two wide cups and a narrow cup in the middle. It is capable of measuring mass/charge (m/z) 64 and 66 simultaneously. The ion beams from SO2 are as follows: m/z 64 = SO2 = 32S16O16O; and m/z 66 = SO2 = 34S16O16O primarily.",
     "description": "viii, 31 p.; ill.; Appendices",
     "publisher": {
       "@type": "Organization",
       "name": "U.S. Geological Survey"
     },
     "author": [
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         "@type": "Person",
         "name": "Coplen, Tyler B. tbcoplen@usgs.gov",
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           {
             "@type": "Organization",
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}

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