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Measurements of the Calorific Value of Methane with the New GERG Reference Calorimeter

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Abstract

A new reference calorimeter has been developed under a European research project and set-up by Physikalisch-Technische Bundesanstalt (PTB) in Germany. The objective of the project is to measure the superior calorific value (SCV) of methane and other pure gases with a measurement uncertainty of less than 0.05 %. This paper presents the measurement results obtained for methane. Nine repeatability measurements were made. The molar SCV obtained when the measurements were averaged is 890.578 kJ·mol−1. This value agrees very accurately with the value of 890.63 kJ·mol−1 specified by ISO 6976 [Natural Gas—Calculation of Calorific Values, Density, Relative Density and Wobbe Index from Composition. International Standard ISO 6976, corrected and reprinted 1996-02-01]. Twice the standard deviation determined for the measurements is 0.023 % and is thus clearly lower than in previous experiments. Two independent uncertainty analyses confirm that the envisaged total uncertainty of 0.05 % is achieved (95 % confidence level).

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References

  1. ISO 6976, Natural Gas—Calculation of Calorific Values, Density, Relative Density and Wobbe Index from Composition. International Standard ISO 6976, 2nd edn., 1995-12-01, corrected and reprinted 1996-02-01

  2. Rossini F.D.: J. Res. Natl. Bur. Stand. 6, 37 (1931)

    Google Scholar 

  3. Rossini F.D.: J. Res. Natl. Bur. Stand. 7, 329 (1931)

    Google Scholar 

  4. Pittam D.A., Pilcher G.: J. Chem. Soc. Faraday. Trans. I 68, 2224 (1972)

    Article  Google Scholar 

  5. Rossini F.D.: Experimental Thermochemistry. Interscience, New York (1956) chap. 4

    Google Scholar 

  6. Dale A., Lythall C., Aucott J., Sayer C.: Thermochim. Acta 382, 47 (2002)

    Article  Google Scholar 

  7. Alexandrov Y.I.: Thermochim. Acta 382, 55 (2002)

    Article  Google Scholar 

  8. P. Ulbig, S. Kimpton, in Proceedings of Advanticas Gas Quality Conference (Loughborough, United Kingdom, 2002)

  9. P. Wenz, Development of a reference gas calorimeter, Internal project report, PTB, Braunschweig (2002)

  10. A. Pramann, Development of a reference gas calorimeter, Final internal report, PTB, Braunschweig (2005)

  11. J. Rauch, S.M. Sarge, F. Haloua, B. Hay, J.-R. Filtz, P. Schley, M. Beck, J.N. Ponsard, O. Gorieu, A. Benito, P.L. Cremonesi, in Proceedings of International Gas Research Conference, Paris (2008)

  12. ISO TR 29922, Natural Gas—Technical Support Documentation for ISO 6976, 3rd edn., Calculation of Calorific Values, Density, Relative Density and Wobbe Index from Composition (in preparation)

  13. G.T. Armstrong, T.L. Jobe, Heating values of natural gas and its components, NBSIR 82-2401 (1982)

  14. GUM Workbench, Software in accordance with “ISO Guide to the expression of uncertainty in measurement,” Metrodata GmbH (www.metrodata.de)

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Authors and Affiliations

  1. E.ON Ruhrgas AG, Essen, Germany

    P. Schley, M. Beck & M. Uhrig

  2. Physikalisch-Technische Bundesanstalt, Braunschweig, Germany

    S. M. Sarge & J. Rauch

  3. Laboratoire National de Métrologie et D’essais, Trappes, France

    F. Haloua, J.-R. Filtz & B. Hay

  4. GDF Suez, Paris, France

    M. Yakoubi & J. Escande

  5. Enagás, Madrid, Spain

    A. Benito

  6. Snam Rete Gas, San Donato Milanese, Italy

    P. L. Cremonesi

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  1. P. Schley
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  2. M. Beck
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  3. M. Uhrig
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  4. S. M. Sarge
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  5. J. Rauch
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  6. F. Haloua
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  7. J.-R. Filtz
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  8. B. Hay
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  9. M. Yakoubi
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  10. J. Escande
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  11. A. Benito
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  12. P. L. Cremonesi
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Correspondence to P. Schley.

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Schley, P., Beck, M., Uhrig, M. et al. Measurements of the Calorific Value of Methane with the New GERG Reference Calorimeter. Int J Thermophys 31, 665–679 (2010). https://doi.org/10.1007/s10765-010-0714-z

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  • DOI: https://doi.org/10.1007/s10765-010-0714-z

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