Quantitative Gas Chromatography

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Presentation transcript:

Quantitative Gas Chromatography Chem 2223 Lab Prep

Goals and Objectives Goals Specific Objectives To become familiar with basic methods of quantitative analysis by gas chromatography Specific Objectives Use the standard additions technique to determine the identities and concentrations of the components in a mixture of volatile organic compounds

Setup

Solutes and Internal Standard Compound Structure or Formula Boiling Point, oC Relative Polarity Methanol (solvent) CH3OH 64.6 Polar Toluene 110.6 Nonpolar Ethylbenzene 135.2 p-Xylene 138.4 Bromobenzene (internal standard) 156.0

Internal Standard Method Description In this approach, an internal standard is added to the sample, and the response from the analyte peak is compared to the internal standard. This approach corrects for minor variations in the injection volume. Response Factor (RF) The response factor accounts for differences in the detector response between the analyte and standard.

Sample Chromatogram and Integration Report IS X AX = 27.01 AIS = 17.80

Calibration Curve with Internal Standard Standards Each contains fixed mass of internal standard, various masses of std analyte Calibration curve shows linear response. Slope = response factor* Unknown Add known amount of internal standard Inject and measure Ax/Ais Determine cx/cis for your unknown from calibration curve. Since cis is known, cx for your unknown is simply cx = (cx/cis)cis *This expression for the response factor is not used directly in your calculations. The following expression which accounts for the intercept is more rigorous (in practice the intercept is very near zero). Calculations based on the calibration data do take the intercept into account.