Liste der Veröffentlichungen

 

Artikel, MonographienM und BücherB

1.

Wagner, W. Thermodynamische Eigenschaften von Trifluormethan (R 23). Kältetechnik - Klimatisierung 20 (1968), 238-240.

2.

Wagner, W. Ein pneumatisch gesteuertes Entnahmeventil für tiefe Temperaturen und hohe Drücke. Kältetechnik - Klimatisierung 22 (1970), 114-115.

3.

Wagner, W. Ein elektrisch angetriebenes Pump- und Rührwerk für den Einsatz bei tiefen Temperaturen und hohen Drücken. Kältetechnik - Klimatisierung 22 (1970), 342-344.

4.

Wagner, W. Eine thermische Zustandsgleichung zur Berechnung der Phasengleichgewichte flüssig-gasförmig für Stickstoff. Dissertation Technische Universität Braunschweig 1970.

5.

 Wagner, W. Eine Versuchsanlage zur Bestimmung von Phasengleichgewichten für Gemische fluider Substanzen bei tiefen Temperaturen. Kältetechnik - Klimatisierung 24 (1972), 121-129.

6.

Wagner, W. A method to establish equations of state exactly representing all saturated state variables applied to nitrogen. Cryogenics 12 (1972), 214-221.

7.

Wagner, W., Janssen, H. A new vacuum jacket transfer tube for the connexion of several refrigerant storage vessels with an evaporation cryostat. Cryogenics 13 (1973), 364-366.

8.

Wagner, W. New vapour pressure measurements for argon and nitrogen and a new method for establishing rational vapour pressure equations. Cryogenics 13 (1973), 470-482.

9.

Wagner, W. Method for rational establishment of thermodynamic equations shown by the example of the vapour pressure curve for pure fluids. Bull. Inst. Int. Froid - Int. Inst. Refrigeration (I.I.F. - I.I.R.), Annexe 1973, (4), 65-74.

 M10.

 

Wagner, W. Eine mathematisch statistische Methode zum Aufstellen thermodynamischer Gleichungen - gezeigt am Beispiel der Dampfdruckkurve reiner fluider Stoffe. Fortschr.-Ber. VDI-Z., Reihe 3, Nr. 39, VDI-Verlag, Düsseldorf, 1974.

11.

Wagner, W., Pollak, R. A simple, but very accurate vapor pressure equation for water. In: Proc. 8th International Conference on the Properties of Water and Steam, Giens 1974, Editions Européennes Thermique et Industries, Paris (1974) Vol. 2, 787-796.

12.

Wagner, W. Zur Strategie der Messung und Korrelation von Zustandsgrößen. Brennst.-Wärme-Kraft 27 (1975), 290-297.

13.

Wagner, W., Ewers, J., Pentermann, W. New vapour-pressure measurements and a new rational vapour-pressure equation for oxygen. J. Chem. Thermodynamics 8 (1976), 1049-1060.

14.

Wagner, W. A new correlation method for thermodynamic data applied to the vapour-pressure curve of argon, nitrogen and water. Report PC/T 15, IUPAC Thermodynamic Tables Project Centre, Imperial College, London, 1977.

15.

Kleinrahm, R., Wagner, W. Untersuchung von Dichtemeßverfahren und Konzipierung einer Anlage zur genauen Messung der Siede- und Taudichte. Chem.-Ing.-Tech. 50 (1978), 805.

16.

Pentermann, W., Wagner, W. New pressure-density-temperature measurements and new rational equations for the saturated liquid and vapour densities of oxygen. J. Chem. Thermodynamics 10 (1978), 1161-1172.

17.

Straub, J., Lange, R., Wagner, W. Untersuchungen kritischer Phänomene unter reduzierter Schwerkraft. In: Spacelab-Nutzung Werkstofforschung und Verfahrenstechnik, DGLR-Bericht 79-01 (1979), 185-192.

18.

Wagner, W., Kratz, H.-G., Pentermann, W. Aufbau einer Meßapparatur zur Druck-, Dichte-, Temperaturmessung im kritischen Gebiet reiner fluider Stoffe im SPACELAB. In: Spacelab-Nutzung Werkstofforschung und Verfahrenstechnik im Weltraum, DGLR-Bericht 80-01 (1980), 29-37.

19.

Wagner, W., Meier, T. Automatisierung eines Gebläseprüfstandes. Bosch Techn. Berichte 7 (1981), 95-104.

20.

Wagner, W., Kratz, H.-G., Pentermann, W. Konzipierung einer Meßapparatur zur  Druck-, Dichte-, Temperatur-Messung des kritischen Gebietes reiner fluider Stoffe im SPACELAB. Forschungsbericht BMFT-FB-W 81-026 des Bundesministeriums für Forschung und Technologie, 1981.

21.

Kratz, H.-G., Wagner, W. Meßapparatur zur Druck-, Dichte-, Temperatur-Messung im kritischen Gebiet reiner fluider Stoffe. In: Spacelab-Nutzung Werkstofforschung und Verfahrenstechnik im Weltraum, DGLR-Bericht 81-01 (1981), 151-157.

22.

Ewers, J., Wagner, W. Eine Methode zur Optimierung der Struktur von Zustandsgleichungen und ihre Anwendung zur Aufstellung einer Fundamentalgleichung für Sauerstoff. VDI-Forsch.-Heft 609 (1982), 27-34.

23.

Wagner, W., Ewers, J., Schmidt, R. An equation for the ideal-gas heat capacity of molecular oxygen for temperatures from 30 K to 3000 K. Ber. Bunsenges. Phys. Chem. 86 (1982), 538-540.

24.

Ewers, J., Wagner, W. A method for optimizing the structure of equations of state and its application to an equation of state for oxygen. In: Proceedings of the 8th Symposium on Thermophysical Properties, edited by J. V. Sengers (American Society of Mechanical Engineers, New York, 1982), Vol. I, 78-87.

25.

Wagner, W., Kratz, H.-G. Verhalten thermischer Zustandsgrößen im kritischen Gebiet reiner fluider Stoffe - Aufbau einer Meßapparatur für Druck, Dichte, Temperatur-Messungen im kritischen Gebiet. In: Bericht zum 18. Bunsenkolloquium "Kritische Erscheinungen, Phasenbildung und Transportvorgänge unter verminderter Schwerkraft" (Herausgeber J. Richter, Institut für Physikalische Chemie der RWTH Aachen), 1983, 34-52.

26.

Wagner, W., Ewers, J., Schmidt, R. An equation of state for oxygen vapour - second and third virial coefficients. Cryogenics 24 (1984), 37-43.

27.

Kleinrahm, R., Wagner, W. Entwicklung und Aufbau einer Dichtemeßanlage zur Messung der Siede- und Taudichten reiner fluider Stoffe auf der gesamten Phasengrenzkurve. Fortschr.-Ber. VDI-Z., Reihe 3, Nr. 92, VDI-Verlag, Düsseldorf, 1984.

28.

Schmidt, R., Wagner, W. A new form of the equation of state for pure substances and its application to oxygen. Fluid Phase Equilibria 19 (1985), 175-200.

29.

Kleinrahm, R., Wagner, W. Entwicklung und Aufbau einer Dichtemeßanlage zur Messung der Siede- und Taudichten reiner fluider Stoffe auf der gesamten Phasengrenzkurve. Chem.-Ing.-Techn. 57 (1985), 520-522.

30.

Kratz, H.-G., Wagner, W. Meßapparatur zur Druck-, Dichte-, Temperatur-(p,v,T)-Messung  im kritischen Gebiet reiner fluider Stoffe. Forschungsbericht BMFT-FB-W 85-006 des Bundesministeriums für Forschung und Technologie, 1985.

31.

Wagner, W., Saul, A. Correlation equations for the vapour pressure and for the orthobaric densities of water substance. Proceedings of the 10th International Conference on the Properties of Steam, edited by V.V. Sychev and A.A. Aleksandrov, MIR Moscow (1986), 199-209.

32.

Kleinrahm, R., Wagner, W. Measurement and correlation of the equilibrium liquid and vapour densities and the vapour pressure along the coexistence curve of methane. J. Chem. Thermodynamics 18 (1986), 739-760.

33.

Kleinrahm, R., Duschek, W., Wagner, W. (Pressure, density, temperature) measurements in the critical region of methane. J. Chem. Thermodynamics 18 (1986), 1103-1114.

B34.

Wagner, W., de Reuck, M. International thermodynamic tables of the fluid state – 9, oxygen. Blackwell Scientific, Oxford, 1987.

35.

Saul, A., Wagner, W. International equations for the saturation properties of ordinary water substance. J. Phys. Chem. Ref. Data 16 (1987), 893-901.

36.

Kleinrahm, R., Duschek, W., Jaeschke, M., Wagner, W. Messung und Korrelation der Gasdichte von Methan im Temperaturbereich von 0 °C bis 50 °C und Drücken bis 80 bar. gwf-gas/Erdgas, 129 (1988), 77-82.

37.

Kleinrahm, R., Duschek, W., Jaeschke, M., Wagner, W. Eine genaue Korrelationsgleichung zur Berechnung der Gasdichte von Methan im Temperaturbereich von 0 °C bis 50 °C und Drücken bis 80 bar. Chem.-Ing. -Techn. 60 (1988), 120-122.

38.

Kleinrahm, R., Duschek, W., Wagner, W., Jaeschke, M. Measurement and correlation of the (pressure, density, temperature) relation of methane in the temperature range from 273.15 K to 323.15 K and pressures up to 8 MPa. J. Chem. Thermodynamics 20 (1988), 621-631.

39.

Duschek, W., Kleinrahm, R., Wagner, W., Jaeschke, M. Measurement and correlation of the (pressure, density, temperature) relation of nitrogen at temperatures from 273.15 K to 323.15 K and pressures up to 8 MPa. J. Chem. Thermodynamics 20 (1988), 1069-1078.

40.

Wagner, W., Kurzeja, N., Pieperbeck, B. Eine Apparatur zur Messung des p,ρ,T-Verhaltens von Schwefelhexafluorid im kritischen Gebiet. In: BMFT-DFVLR-Statusseminar "Forschung unter Schwerelosigkeit", 177-184, Friedrichshafen (1988).

41.

Sato, H., Uematsu, M., Watanabe, K., Saul, A., Wagner, W. New international skeleton tables for the thermodynamic properties of ordinary water substance. J. Phys. Chem. Ref. Data 17 (1988), 1439-1540.

42.

Setzmann, U., Wagner, W. A new method for optimizing the structure of thermodynamic correlation equations. Int. J. Thermophysics 10 (1989), 1103-1126.

43.

Duschek, W., Kleinrahm, R., Wagner, W., Jaeschke, M. Measurements of the (pressure, density, temperature) relation of Ekofisk natural gas in the temperature range from 273.15 K to 323.15 K and pressures up to 8 MPa. J. Chem. Thermodynamics 21 (1989), 1069-1078.

44.

Saul, A., Wagner, W. A fundamental equation for water covering the range from the melting line to 1273 K at pressures up to 25000 MPa. J. Phys. Chem. Ref. Data 18 (1989), 1537-1564.

45.

Wagner, W., Kleinrahm, R., Pieperbeck, N., Jaeschke, M. A new apparatus for high-precision gas-density measurements to calibrate gas-density transducers. Proceedings of the 1989 International Gas Research Conference, Tokyo, November 6-9, 1989, Government Institutes Inc., Rockville, U.S.A., 1990, 462-471.

46.

Duschek, W., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of carbon dioxide. I. The homogeneous gas and liquid region in the temperature range from 217 K to 340 K at pressures up to 9 MPa. J. Chem. Thermodynamics 22 (1990), 827-840.

47.

Duschek, W., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of carbon dioxide. II. Saturated-liquid and saturated-vapour densities and the vapour pressure along the entire coexistence curve. J. Chem. Thermodynamics 22 (1990), 841-864.

48.

Wagner, W., Saul, A. Equations for the pressures along the melting curve and sublimation curve of ordinary water. Proceedings of the 11th International Conference on the Properties of Water and Steam (Eds. M. Pichal and O. Sifner), Hemisphere Publishing Corporation, New York, 1990, p. 39.

M49.

Pieperbeck, N., Kleinrahm, R., Wagner, W. Entwicklung und Aufbau einer Präzisions-Gasdichtemeßanlage zur Bestimmung der Dichte von Erdgasen. Fortschr.-Ber. VDI, Reihe 3, Nr. 228, VDI-Verlag, Düsseldorf, 1990.

50.

Laesecke, A., Krauss, R., Stephan, K., Wagner, W. The transport properties of fluid oxygen. J. Phys. Chem. Ref. Data 19 (1990), 1089-1122.

51.

Pieperbeck, N., Kleinrahm, R., Wagner, W., Jaeschke, M. Results of (pressure, density, temperature) measurements of methane and on nitrogen in the temperature range from 273.15 K to 323.15 K at pressures up to 12 MPa using a new apparatus for accurate gas-density measurements. J. Chem. Thermodynamics 23 (1991), 175-194.

52.

Wagner, W., Kurzeja, N., Pieperbeck, B. Das thermische Verhalten reiner fluider Stoffe im kritischen Gebiet - Erfahrungen aus pr T-Messungen von SF6 mit einer Mehrzellenapparatur. In: DARA Symposium 1991, Statusseminar "Forschung unter Weltraumbedingungen, 14-32, Aachen (1991).

53.

Stewart, R. B., Jacobsen, R. T, Wagner, W. Thermodynamic properties of oxygen from the triple point to 350 K at pressures to 80 MPa. J. Phys. Chem. Ref. Data 20 (1991), 917-1021.

54.

Sato, H., Watanabe, K., Levelt  Sengers, J. M. H., Gallagher, J. S., Hill, P. G., Straub, J., Wagner, W. Sixteen thousand evaluated experimental thermodynamic property data for water and steam. J. Phys. Chem. Ref. Data 20 (1991), 1023-1044.

55.

Setzmann, U., Wagner, W. A new equation of state and tables of thermodynamic  properties for methane covering the range from the melting line to 625 K at pressures up to 1000 MPa. J. Phys. Chem. Ref. Data 20 (1991), 1061-1155.

M56.

Marx, V., Pruß, A., Wagner, W. Neue Zustandsgleichungen für R12, R22, R11 und R113. Beschreibung des thermodynamischen Zustandsverhaltens bei Temperaturen bis 525 K und Drücken bis 200 MPa. Fortschr.-Ber. VDI, Reihe 19, Nr. 57, VDI-Verlag, Düsseldorf, 1992.

57.

Händel, G., Kleinrahm, R., Wagner, W. Measurement of the (pressure, density, temperature) relation of methane in the homogeneous gas and liquid region in the temperature range from 100 K to 260 K at pressures up to 8 MPa. J. Chem. Thermodynamics 24 (1992), 685-695.

58.

Händel, G., Kleinrahm, R., Wagner, W. Measurement of the (pressure, density, temperature) relation of dichlorodifluoromethane (R12) and of chlorodifluoromethane (R22) in parts of the homogeneous gas and liquid regions and on the coexistence curve. J. Chem. Thermodynamics 24 (1992), 697-713.

59.

Gilgen, R., Kleinrahm, R., Wagner, W. Measurement of the (pressure, density, temperature) relation of sulfurhexafluoride in the homogeneous region from 321.15 K to 333.15 K and on the coexistence curve from 288.15 K to 315.15 K. J. Chem. Thermodynamics 24 (1992), 953-964.

60.

Achtermann, H. J., Hong, J., Wagner, W., Pruß, A. Refractive index and density isotherms for methane from 273 to 373 K at pressures up to 34 MPa. J. Chem. Eng. Data 37 (1992), 414-418.

61.

Wagner, W., Kurzeja, N., Pieperbeck, B. The thermal behavior of fluid substances in the critical region - experiences from recent pρT measurements on SF6 with a multi-cell apparatus. Fluid Phase Equilibria 79 (1992), 151-174.

62.

Gilgen, R., Kleinrahm, R., Wagner, W. Supplementary measurements of the (pressure, density, temperature) relation of carbon dioxide in the homogeneous region at temperatures from 220 K to 360 K and at pressures up to 13 MPa. J. Chem. Thermodynamics 24 (1992), 1243-1250.

63.

Wagner, W., Kleinrahm, R., Guo, X. Y., Olbricht, G., Jaeschke, M. Experimental investigations of the vos effect on the gas density transducers for natural gas pipelines. Proceedings of the 1992 International Gas Research Conference, Orlando 16-19 November, 1992, Government Institutes Inc., Rockville, U. S. A., 1993, 863-868.

64.

Wagner, W., Pruß, A. International equations for the saturation properties of ordinary water substance – Revised according to the International Temperature Scale of 1990. Addendum to J. Phys. Chem. Ref. Data 16, 893 (1987). J. Phys. Chem. Ref. Data 22, (1993), 783-787. 

65.

Wagner, W., Span, R. Special equations of state for methane, argon, and nitrogen for the temperature range from 270 K to 350 K at pressures up to 30 MPa. Int. J. Thermophysics 14 (1993), 699-725.

66.

Lösch, H. W., Kleinrahm, R., Wagner, W. Neue Magnetschwebewaagen für gravimetrische Messungen in der Verfahrenstechnik. Chem.-Ing.-Technik 65 (1993), 1116-1117.

67.

Wagner, W., Marx, V., Pruß, A. A new equation of state for chlorodifluoromethane (R22) covering the entire fluid range from 116 K to 550 K at pressures up to 200 MPa. Int. J. Refrigeration 16 (1993), 373-389.

M68.

Brachthäuser, K., Kleinrahm, R., Lösch, H. W., Wagner, W. Entwicklung eines neuen Dichtemeßverfahrens und Aufbau einer Hochtemperatur-Hochdruck-Dichtemeßanlage. Fortschr.-Ber. VDI, Reihe 8, Nr. 371, VDI-Verlag, Düsseldorf, 1993.

69.

Gilgen, R., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of argon. I. The homogeneous gas and liquid regions in the temperature range from 90 K to 340 K at pressures up to 12 MPa. J. Chem. Thermodynamics 26 (1994), 383-398.

70.

Gilgen, R., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of argon. II. Saturated-liquid and saturated-vapour densities and vapour pressures along the entire coexistence curve. J. Chem. Thermodynamics 26 (1994), 399-413.

71.

Lösch, H. W., Kleinrahm, R., Wagner, W. Neue Magnetschwebewaagen für gravimetrische Messungen in der Verfahrenstechnik. Jahrbuch 1994 "Verfahrenstechnik und Chemieingenieurwesen", VDI-Gesellschaft Verfahrenstechnik und Chemie­ingenieurwesen (GVC), 117-137, VDI-Verlag, Düsseldorf, 1994.

72.

Wagner, W., Saul, A., Pruß, A. International equations for the pressure along the melting curve and the sublimation curve of ordinary water substance. J. Phys. Chem. Ref. Data 23 (1994), 515-527.

73.

Lösch, H. W., Kleinrahm, R., Wagner, W. Neue Magnetschwebewaagen für gravimetrische Messungen in der Verfahrenstechnik. Chem.-Ing.-Tech. 66 (1994), 1055-1058.

74.

Olbricht, G., Kleinrahm, R., Lösch, H. W., Wagner, W., Jaeschke, M. Entwicklung einer Transportablen Prüfeinrichtung für Betriebsdichteaufnehmer in Erdgasmeßstrecken. gwf-Gas/Erdgas 136 (1995), 73-78.

M75.

Pruß, A., Wagner, W. Eine neue Fundamentalgleichung für das fluide Zustandsgebiet von Wasser für Temperaturen von der Schmelzlinie bis zu 1273 K bei Drücken bis zu 1000 MPa. Fortschr.-Ber. VDI, Reihe 6, Nr. 320, VDI-Verlag, Düsseldorf 1995.

76.

Wagner, W., Brachthäuser, K., Kleinrahm, R., Lösch, H. W. A new, accurate Single-Sinker densitometer for temperatures from 233 K to 523 K at pressures up to 30 MPa. Int. J. Thermophysics 16 (1995), 399-411.

77.

Wagner, W., Rukes, B. Die Entwicklung einer neuen Industrie-Formulation für die Zustandseigenschaften von Wasser und Wasserdampf. Brennstoff-Wärme-Kraft 47 (1995), 312-316.

78.

Pruß, A., Wagner, W. A new equation of state for water as a candidate for the New Scientific Formulation of IAPWS, in "Physical Chemistry of Aqueous Systems: Meeting the Needs of Industry", edited by H. J. White, Jr. et al.,  Proceedings of the 12th International Conference on the Properties of Water and Steam,  pp. 66-77, Begell House, New York, Wallingford, 1995.

79.

Wagner, W., Rukes, B. Need, requirements and concept for the development of a New Industrial Formulation, in "Physical Chemistry of Aqueous Systems: Meeting the Needs of Industry", edited by H. J. White, Jr. et al., Proceedings of the 12th International Conference on the Properties of Water and Steam, pp. 123-130, Begell House, New York, Wallingford, 1995.

80.

Kruse, A., Wagner, W. Development of fundamental equations g(p,T) and backward equations T(p,h) and T(p,s) for the New Industrial Formulation,  in "Physical Chemistry of Aqueous Systems: Meeting the Needs of Industry", edited by H. J. White, Jr. et al., Proceedings of the 12th International Conference on the Properties of Water and Steam,  pp. 161-166, Begell House, New York, Wallingford, 1995.

81.

Wagner, W., Rukes, B. Concept and Status of Development of the New Industrial Formulation of IAPWS, in "Physicochemical Properties of Water and Aqueous Solutions for Industrial Applications", Extended Abstracts of the Symposium 1995, pp. 49-56, International Association for the Properties of Water and Steam, French National Committee, Paris, September 20, 1995.

82.

Span, R., Kleinrahm, R., Wagner, W., Konopka, G., Jaeschke, M., Bittkow, P. Vereinfachte Zustandsgleichungen für Erdgase. gwf-Gas/Erdgas 136 (1995), 644-648.

83.

Mecke, M., Müller, A., Winkelmann, J., Vrabec, J., Fischer, J., Span, R., Wagner, W. An accurate van der Waals-type equation of state for the Lennard-Jones fluid. Int. J. Thermophysics 17 (1996), 391-404.

84.

Wagner, W., Pruß, A. Die neue internationale Standard-Zustandsgleichung für Wasser für den allgemeinen und wissenschaftlichen Gebrauch. Jahrbuch 1996, VDI-Gesellschaft Energietechnik, 326-332, VDI-Verlag, Düsseldorf, 1996.

85.

Jaeschke, M., Guo, X. Y., Kleinrahm, R., Wagner, W. A new accurate method for correcting the vos effect on vibrating gas density transducers. Proceedings of the International Gas Research Conference, Cannes, 6 - 9 November 1995, Government Institutes Inc., Rockville, U.S.A., 1996, 871- 880.

B86.

Wagner, W., de Reuck, M. International thermodynamic tables of the fluid state - 13, methane. Blackwell Science, Oxford, 1996.

87.

Wagner, W., Pruß, A. Neue internationale Standard-Zustandsgleichung für Wasser zum allgemeinen und wissenschaftlichen Gebrauch. Chem.-Ing.-Tech. 68 (1996), 1100-1101.

88.

Nowak, P., Kleinrahm, R., Wagner, W. Präzisionsmessungen der thermischen Zustandsgrößen von Ethylen, Stickstoff und Kohlendioxid. Fortschr.-Ber. VDI, Reihe 3, Nr. 456, VDI-Verlag Düsseldorf, 1996.

89.

Span, R., Wagner, W. A new equation of state for carbon dioxide covering the fluid region from the triple-point temperature to 1100 K at pressures up to 800 MPa. J. Phys. Chem. Ref. Data 25 (1996), 1509-1596.

90.

Nowak, P., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of ethylene. I. The homogeneous gaseous and liquid regions in the temperature range from 105 K to 340 K at pressures up to 12 MPa. J. Chem. Thermodynamics 28 (1996), 1423-1439.

91.

Nowak, P., Kleinrahm, R., Wagner, W. Measurement and correlation of the (pressure, density, temperature) relation of ethylene. II. Saturated-liquid and saturated-vapour densities and vapour pressures along the entire coexistence curve. J. Chem. Thermodynamics 28 (1996), 1441-1460.

M92.

Tegeler, Ch., Span, R., Wagner, W. Eine neue Fundamentalgleichung für das fluide Zustandsgebiet von Argon für Temperaturen von der Schmelzlinie bis 700 K und Drücke bis 1000 MPa. Fortschr.-Ber. VDI, Reihe 3, Nr. 480, VDI-Verlag, Düsseldorf, 1997.

93.

Wagner, W., Lösch, H. W., Kleinrahm, R. Wiegen durch Wände. RUBIN, Wissen­schafts­magazin der Ruhr-Universität Bochum, 7 (1997), 1/97, 24-30.

94.

Wagner, W., Pruß, A. Die neue internationale Standard-Zustandsgleichung für Wasser für den allgemeinen und wissenschaftlichen Gebrauch. Jahrbuch 1997 der VDI-Gesell­schaft Verfahrenstechnik und Chemieingenieurwesen (GVC), 134-156, VDI-Verlag, Düsseldorf, 1997.

M95.

Tielkes, Th., Kurzeja, N., Wagner, W. Präzisionsmessungen der thermischen Zustands­größen im kritischen Gebiet von Kohlendioxid. Fortschr.-Ber. VDI, Reihe 3, Nr. 488, VDI-Verlag, Düsseldorf, 1997.

M96.

Docter, A., Lösch, H. W., Wagner, W. Entwicklung und Aufbau einer Anlage zur simultanen Messung der Viskosität und der Dichte fluider Stoffe. Fortschr.-Ber. VDI, Reihe 3, Nr. 494, VDI-Verlag, Düsseldorf, 1997.

97.

Nowak, P., Tielkes, Th., Kleinrahm, R., Wagner, W. Supplementary measurements of the (p,ρ,T) relation of carbon dioxide in the homogeneous region at T = 313 K and on the coexistence curve at T = 304 K. J. Chem. Thermodynamics 29 (1997), 885-889.

98.

Nowak, P., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of nitrogen. I. The homogeneous gaseous and liquid regions in the temperature range from 66 K to 340 K at pressures up to 12 MPa. J. Chem. Thermodynamics 29 (1997), 1137-1156.

99.

Nowak, P., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of nitrogen. II. Saturated-liquid and saturated-vapour densities and vapour pressures along the entire coexistence curve. J. Chem. Thermodynamics 29 (1997), 1157-1174.

100.

Span, R., Wagner, W. Stoffwerte bei Sättigung. VDI-Wärmeatlas, 8. Auflage, Dc 39-61, Springer-Verlag, Berlin, 1997.

101.

Span, R., Wagner, W. On the extrapolation behavior of empirical equations of state. Int. J. Thermophysics 18 (1997), 1415-1443.

102.

Wagner, W., Rukes, B. IAPWS-IF97: Die neue Industrie-Formulation. Brennstoff-Wärme-Kraft 50 (1998), 42-47.

B103.

Wagner, W., Kruse, A. Properties of Water and Steam - The Industrial Standard IAPWS-IF97 / Zustandsgrößen von Wasser und Wasserdampf - Der Industrie-Standard IAPWS-IF97. Springer-Verlag, Berlin, 1998.

M104.

Kruse, A., Wagner, W. Neue Zustandsgleichungen für industrielle Anwendungen im technisch relevanten Zustandsgebiet von Wasser. Fortschr.-Ber. VDI, Reihe 6, Nr. 393, VDI-Verlag, Düsseldorf, 1998.

105.

Span, R., Collmann, H.-J., Wagner, W. Simultaneous optimization as a method to establish generalized functional forms for empirical equations of state. Int. J. Thermo­physics 19 (1998), 491-500.

106.

Jaeschke, M., Boden, R., Brandt, O., Gómez Mellado, B., Kleinrahm, R., Wagner, W. An improved evaluation procedure for density transducers used in natural gas pipelines. IGRC 98, Proceedings of the 1998 International Gas Research Conference, Vol. II Transmission and Storage, pp. 551-563, Gas Research Institute, Chicago, 1998.

107.

Gómez Mellado B., Kleinrahm, R., Wagner, W., Jaeschke, M., Boden, R., Brandt, O. Portable densimeter for testing gas density transducers in natural gas grids. IGRC 98, Proceedings of the 1998 International Gas Research Conference, Vol. II Transmission and Storage, pp. 584-594, Gas Research Institute, Chicago, 1998.

108.

Span, R., Lemmon, E. W., Jacobsen, R. T, Wagner, W. A reference quality equation of state for nitrogen. Int. J. Thermophysics 19 (1998), 1121-1132.

109.

Klimeck, J., Kleinrahm, R., Wagner, W. An accurate single-sinker densimeter and measurements of the (p,ρ,T) relation of argon and nitrogen in the temperature range from (235 to 520) K at pressures up to 30 MPa. J. Chem. Thermodynamics 30 (1998), 1571-1588.

110.

Rukes, B., Weber, I., Kruse, A., Wagner, W. Erste Erfahrungen mit der IAPWS-IF97 - Auswirkungen der neuen Industrie-Formulation auf Kraftwerksprozesse im Vergleich zur IFC-67. Brennstoff-Wärme-Kraft 51 (1999), Nr. 3, 30-36.

111.

Wagner, W., Rukes, B. Die neue Industrie-Formulation IAPWS-IF97 - Auswirkungen auf Kraftwerksprozesse im Vergleich zur IFC-67. VDI-Bericht 1457 Fortschrittliche Energiewandlung und -anwendung, S. 35-49, VDI-Verlag, Düsseldorf, 1999.

112.

Docter, A., Lösch, H. W., Wagner, W. A new apparatus for combined measurements of the viscosity and density of fluids for temperatures from 233 K to 523 K at pressures up to 30 MPa. Int. J. Thermophysics 20 (1999), 485-505.

113.

Kurzeja, N., Tielkes, Th., Wagner, W. The nearly classical behavior of a pure fluid on the critical isochore very near the critical point under influence of gravity. Int. J. Thermophysics 20 (1999), 531-561.

114.

Tegeler, Ch., Span, R., Wagner, W. A new equation of state for argon covering the fluid region for temperatures from the melting line to 700 K at pressures up to 1000 MPa.
J. Phys.
Chem. Ref. Data 28 (1999), 779-850.

M115.

Smukala, J., Span, R., Wagner, W. Eine neue Fundamentalgleichung für das fluide Zustandsgebiet von Ethylen für Temperaturen von der Schmelzlinie bis 450 K und Drücke bis 300 MPa. Fortschr.-Ber. VDI, Reihe 3, Nr. 616, VDI-Verlag, Düsseldorf, 1999.

116.

Wagner, W., Span, R., Bonsen, C. Wasser und Wasserdampf. Springer electronic media, Berlin, Heidelberg, 2000.

117.

Wagner, W., Cooper, J. R., Dittmann, A., Kijima, J., Kretzschmar, H.-J., Kruse, A., Mareš, R., Oguchi, K., Sato, H., Stöcker, I., Šifner, O., Takaishi, Y., Tanishita, I., Trübenbach, J., and Willkommen, Th. The IAPWS Industrial Formulation 1997 for the Thermodynamic Properties of Water and Steam. Journal of Engineering for Gas Turbines and Power 122 (2000), 150-182.

118.

Wagner, W. Accurate equations of state - from the past to the future, in "Steam, Water and Hydrothermal Systems: Physics and Chemistry Meeting the Needs of Industry", Proceedings of the 13th International Conference on the Properties of Water and Steam, eds. P. Tremaine, P. G. Hill, D. Irish and P. V. Balakrishnan, pp. 1-12, NRC Research Press, Ottawa, 2000.

119.

Wagner, W. The new industrial formulation IAPWS-IF97 - a short description of its features, in "Steam, Water and Hydrothermal Systems: Physics and Chemistry Meeting the Needs of Industry", Proceedings of the 13th International Conference on the Properties of Water and Steam, eds. P. Tremaine, P. G. Hill, D. Irish and P. V. Balakrishnan, pp. 265-273, NRC Research Press, Ottawa, 2000.

120.

Bonsen, C., Wagner, W. Software developments for the new industrial formulation IAPWS-IF97, in "Steam, Water and Hydrothermal Systems: Physics and Chemistry Meeting the Needs of Industry", Proceedings of the 13th Inter­national Conference on the Properties of Water and Steam, eds. P. Tremaine, P. G. Hill, D. Irish and P. V. Balakrishnan, pp. 283-290, NRC Research Press, Ottawa, 2000.

121.

Bonsen, C., Wagner, W. Softwareentwicklung auf der Basis der neuen Industrie-For­mulation IAPWS-IF97. Posterbeitrag zur Konferenz „Forschung für die Kraftwerkstech­nik 2000“, TB 234A, Sektion G 1, Verlag VGB Kraftwerkstechnik, Essen, 2000.

122.

Smukala, J., Span, R., Wagner, W. A new equation of state for ethylene covering the fluid region for temperatures from the melting line to 450 K at pressures up to 300 MPa. J. Phys. Chem. Ref. Data 29 (2000), 1053-1121.

123.

Span, R., Lemmon, E. W., Jacobsen, R. T, Wagner, W., Yokozeki, A. A reference equation of state for the thermodynamic properties of nitrogen for temperatures from 63.151 to 1000 K and pressures to 2200 MPa. J. Phys. Chem. Ref. Data 29 (2000), 1361-1433.

124.

Gómez Mellado, B., Kleinrahm, R., Lösch, H. W., Wagner, W., Brandt, O., Boden, R. Entwicklung eines transportablen Dichteprüfgerätes für Erdgasmessstationen. GWF-Gas/Erdgas 142 (2001), 282-288.

125.

Klimeck, J., Kleinrahm, R., Wagner, W. Measurements of the (p,ρ,T) relation of methane and carbon dioxide in the temperature range from (240 to 520) K at pressures up to 30 MPa using a new accurate single-sinker densimeter. J. Chem. Thermodynamics 33 (2001), 251-267.

126.

Span, R., Wagner, W., Lemmon, E. W., Jacobsen, R. T. Multiparameter equations of state – recent trends and future challenges. Fluid Phase Equilibria 183 - 184 (2001), 1-20.

127.

Wagner, W., Pruß, A. The IAPWS formulation 1995 for the thermodynamic properties of ordinary water substance for general and scientific use. J. Phys. Chem. Ref. Data 31 (2002), 387-535.

128.

Wagner, W. Stoffwerte von Wasser. VDI-Wärmeatlas, 9. Auflage, Dba 1-15, Springer-Verlag, Berlin, 2002.

129.

Span, R., Wagner, W. Stoffwerte bei Sättigung. VDI-Wärmeatlas, 9. Auflage, Dcb 1-23, Springer-Verlag, Berlin, 2002.

130.

Evers, C., Lösch, H. W., Wagner, W. Ein kombiniertes Viskositäts-Dichte-Messverfahren. Chemie-Ingenieur-Technik 74 (2002), 959-963.

131.

Funke, M., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of sulphur hexafluoride (SF6). I. The homogeneous gaseous and liquid region in the temperature range from 225 K to 340 K at pressures up to 12 MPa. J. Chem. Thermodynamics 34 (2002), 717-734.

132.

Funke, M., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of sulphur hexafluoride (SF6). II. Saturated-liquid and saturated-vapour densities and vapour pressures along the entire coexistence curve. J. Chem. Thermodynamics 34 (2002), 735-754.

133.

Evers, C., Lösch, H. W., Wagner, W. An absolute viscometer-densimeter and measurements of the viscosity of nitrogen, methane, helium, neon, argon, and krypton over a wide range of density and temperature. Int. J. Thermophysics 23 (2002), 1411-1439.

134.

Funke, M., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of ethane. I. The homogeneous gaseous and liquid region in the temperature range from 95 K to 340 K at pressures up to 12 MPa. J. Chem. Thermodynamics 34 (2002), 2001-2015.

135.

Funke, M., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of ethane. II. Saturated-liquid and saturated-vapour densities and vapour pressures along the entire coexistence curve. J. Chem. Thermodynamics 34 (2002), 2017-2039.

136.

Bücker, D., Span, R., Wagner, W. Thermodynamic property models for moist air and combustion gases. Journal of Engineering for Gas Turbines and Power 125 (2003), 374-384.

137.

Claus, P., Kleinrahm, R., Wagner, W. Measurements of the (p,ρ,T) relation of ethylene, ethane, and sulphur hexafluoride in the temperature range from 235 K to 520 K at pressures up to 30 MPa using an accurate single-sinker densimeter. J. Chem. Thermodynamics 35 (2003), 159-175.

138.

Span, R., Wagner, W. Equations of state for technical applications. I. Simultaneously optimized functional forms for nonpolar and polar fluids. Int. J. Thermophysics 24 (2003), 1-39.

139.

Span, R., Wagner, W. Equations of state for technical applications. II. Results for nonpolar fluids. Int. J. Thermophysics 24 (2003), 41-109.

140.

Span, R., Wagner, W. Equations of state for technical applications. III. Results for polar fluids. Int. J. Thermophysics 24 (2003), 111-162.

141.

Wagner, W., Kleinrahm, R. , Lösch, H. W., Watson, J. T. R. Hydrostatic balance densimeters with magnetic suspension couplings, in IUPAC Experimental Thermo­dynamics, Vol. VI: Measurements of the Thermodynamic Properties of Single Phases, Goodwin, A. R. H., Marsh, K. N., and Wakeham, W. A. (eds.), pp. 127-149, Elsevier, Amsterdam 2003.

142.

Jaeschke, M.,Benito, A.,Fredheim, A.,Henault, J.-M.,Viglietti, B.,van Wesenbeek, P.,Klimeck, J., Kunz, O., Wagner, W. GERG project: Wide-range reference equation of state for natural gases. GWF-Gas/Erdgas 144 (2003), 430-435.

143.

Wagner, W., Kleinrahm, R.  Densimeters for very accurate density measurements of fluids over a large range of temperature and up to high pressures. Metrologia 41 (2004), issue 2, S24-S39.

144.

Glos, S., Kleirahm, R., Wagner, W., Jaeschke, M.,  Schley, P.,  Uhrig, M. Präzisions-Dichtemessgerät zur genauen Messung der Normdichte von Erdgasen. GWF-Gas/Erdgas 145 (2004), 394-400.

145.

Glos, S., Kleinrahm, R., Wagner, W. Measurement of the (p,ρ,T) relation of propane, propylene, n butane, and isobutane in the temperature range from 95 K to 340 K at pressures up to 12 MPa using an accurate two-sinker densimeter. J. Chem. Thermodynamics 36 (2004), 1037-1059.

146.

Wagner, W., Kunz, O.  Die ganze (thermodynamische) Wahrheit steckt in einer Formel. RUBIN, Wissenschaftsmagazin der Ruhr-Universität Bochum, Sonderheft Maschinenbau (2004), 74-82.

147.

Feistel, R., Wagner, W. High-pressure thermodynamic Gibbs functions of ice and sea ice. J. Marine Research 63 (2005), 95-139.

148.

Feistel, R., Wagner, W., Tchijov, V., Guder, C. Numerical implementation and oceanographic application of the Gibbs potential of ice. Ocean Sci. 1, (2005), 29-38.

149.

Feistel, R., Wagner, W. A Comprehensive Gibbs Thermodynamic Potential of Ice, in "Water, Steam, and Aqueous Solutions for Electric Power - Advances in Science and Technology", Proceedings of the 14th International Conference on the Properties of Water and Steam, eds. M. Nakahara, N. Matubayasi, M. Ueno, K. Yasuoka, and K. Watanabe, pp. 751-756, Maruzen Co., Ltd. 2005.

150.

Overhoff, U., Kunz, O., Wagner, W. Werkzeuge zur einfachen Nutzung von Zustandsgleichungen. Chemie Ingenieur Technik 77 (2005), 1092-1093.

151.

Feistel, R., Wagner, W. A Comprehensive Gibbs potential of ice Ih, in "Nucleation Theory and Applications", eds. J. W. P. Schmelzer, G. Röpke, and B. Priezzhev, Joint Institute for Nuclear Research (JINR), Dubna, 2005.

152.

Wagner, W., Overhoff, U. ThermoFluids. Interactive software for the calculation of thermodynamic properties for more than 60 substances. Springer-Verlag, Berlin Heidelberg, 2006.

153.

Wagner, W. Stoffwerte von Wasser. VDI-Wärmeatlas, 10. Auflage, Dba 1-15, Springer-Verlag, Berlin, 2006.

154.

Span, R., Wagner, W. Stoffwerte bei Sättigung. VDI-Wärmeatlas, 10. Auflage, Dcb 1-23, Springer-Verlag, Berlin, 2006.

155.

Wagner, W., Overhoff, U. Extended IAPWS-IF97 Steam Tables. Interactive software for the calculation of thermodynamic and transport properties of water and steam. Springer-Verlag, Berlin Heidelberg, 2006.

156.

Bücker, D., Wagner, W. A reference equation of state for the thermodynamic properties of ethane for temperatures from the melting line to 675 K and pressures up to 900 MPa. J. Phys. Chem. Ref. Data 35 (2006), 205-266.

157.

Bücker, D., Wagner, W. A reference equation of state for the thermodynamic properties of fluid phase n-butane and isobutane. J. Phys. Chem. Ref. Data 35 (2006), 929-1020.

158.

Feistel, R., Wagner, W. A new equation of state for H2O ice Ih. J. Phys. Chem. Ref. Data 35 (2006), 1021-1047.

159.

Kretzschmar, H.-J., Cooper, J. R., Dittmann, A., Friend, D. G., Gallagher, J. S., Knobloch, K., Mareš, R., Miyagawa, K., Stöcker, I., Trübenbach, J., Wagner, W., Willkommen, Th. Supplementary backward equations for pressure as a function of enthalpy and entropy p(h,s) to the industrial formulation IAPWS-IF97 for water and steam. Journal of Engineering for Gas Turbines and Power 128 (2006), 702-713.

160.

Feistel, R., Wagner, W. Sublimation pressure and sublimation enthalpy of H2O ice Ih between 0 and 273.16 K. Geochim. Cosmochim. Acta (2006), 71 (2007), 36-45.

161.

Kretzschmar, H.-J., Cooper, J. R., Dittmann, A., Friend, D., G., Gallagher, J. S., Harvey, A. H., Knobloch, K., Mareš, R., Miyagawa, K., Okita, N., Stöcker, I., Wagner, W., Weber, I. Supplementary backward equations T (p, h), v (p, h), and T (p, s), v (p, s) for the critical and supercritical regions (region 3) of the industrial formulation IAPWS-IF97 for water and steam. J. Eng. Gas Turbines and Power 129 (2007), 294-303.

162.

Kunz, O., Klimeck, R., Wagner, W., Jaeschke, M. The GERG-2004 wide-range equation of state for natural gases and other mixtures. GERG Technical Monograph 15 (2007). Fortschr.-Ber. VDI, Reihe 6, Nr. 557, VDI Verlag, Düsseldorf, 2007.

163.

McLinden, M. O., Kleinrahm, R., Wagner, W. Force Transmission Errors in Magnetic Suspension Densimeters. Submitted to Int. J. Thermophysics, 2007.

164.

Kretzschmar, H.-J., Cooper, J. R., Dittmann, A., Friend, D. G., Gallagher, J. S., Harvey, A. H., Knobloch, K., Mareš, R., Miyagawa, K., Okita, N., Span, R., Stöcker, I., Wagner, W., Weber, I. Supplementary backward equations p(h,s), for the critical and supercritical regions (region 3), equations for the region boundaries and an equation for the two-phase region of the IAPWS-IF97 Industrial Formulation 1997 for the thermodynamic properties of water and steam. J. Eng. Gas Turbines and Power 129 (2007), 1125-1137.

B165.

Wagner, W., Kretzschmar, H.-J. International Steam Tables - Properties of Water and Steam Based on the Industrial Formulation IAPWS-IF97. Springer-Verlag, Berlin, 2008.

166.

Schilling, G., Kleinrahm, R., Wagner, W. Measurement and correlation of the (p,ρ,T) relation of liquid n-heptane, n-nonane, 2,4-dichlorotoluene, and bromobenzene in the temperature range from 233.15 K to 473.15 K at pressures up to 30 MPa for use as density reference liquids. J. Chem. Thermodynamics 40 (2008) 1095-1105.

167.

Feistel, R., Wright, D. G., Miyagawa, K., Hruby, J., Jackett, D. R., McDougall, T. J., Wagner, W. Development of thermodynamic potentials for fluid water, ice and seawater: a new standard for oceanography. Ocean Sci. Discuss. 5 (2008), 375-418.

168.

Wagner, W. From the beginning to this day – My first naive ideas and the research results achieved, in “Water, Steam and Aqueous Solutions – Advances in Science and Technology for Power Generation” Proceedings of the 15th International Conference on the Properties of Water and Steam, eds. R. Span and I. Weber, VDI – The Association of German Engineers, GET – Society for Energy Technology (www.vdi.de/get, Diese E-Mail-Adresse ist vor Spambots geschützt! Zur Anzeige muss JavaScript eingeschaltet sein! ), CD-ROM (ISBN 978-3-931384-64-7), Düsseldorf, 2008.

169.

Feistel, R., Wright, D. G., Miyagawa, K., Harvey, A. H., Hruby, J., Jackett, D. R., McDougall, T. J., Wagner, W. Development of thermodynamic potentials for fluid water, ice and seawater, in “Water, Steam and Aqueous Solutions – Advances in Science and Technology for Power Generation” Proceedings of the 15th International Conference on the Properties of Water and Steam, eds. R. Span and I. Weber, VDI – The Association of German Engineers, GET – Society for Energy Technology (www.vdi.de/get, Diese E-Mail-Adresse ist vor Spambots geschützt! Zur Anzeige muss JavaScript eingeschaltet sein!), CD-ROM (ISBN 978-3-931384-64-7), Düsseldorf, 2008.

170.

Feistel, R., Wright, D. G., Miyagawa, K., Harvey, A. H., Hruby, J., Jackett, D. R., McDougall, T. J., Wagner, W. Mutual consistent thermodynamic potentials for fluid water, ice and seawater. Ocean Science 4 (2008), 275-291.

171.

Guder, C., Wagner, W. A reference equation of state for the thermodynamic properties of sulphur hexafluoride for temperatures from the melting line to 625 K and pressures up to 150 MPa. J. Phys. Chem. Ref. Data 38 (2009), 33-94.

172.

Kretzschmar, H.-J., Cooper, J. R., Gallagher, J. S., Harvey, A. H., Knobloch, K., Mareš, R., Miyagawa, K., Okita, N., Span, R., Stöcker, I., Wagner, W., Weber, I. Supplemen-tary backward equations for specific volume as function of pressure and temperature v(p,T) for the critical and supercritical regions (region 3) of the IAPWS Industrial Formulation 1997 for the thermodynamic properties of water and steam. J. Eng. Gas Turbines and Power 131 (2009), 043101, 1-16.

173.

Lemmon, E., McLinden, M. O., Wagner, W. Thermodynamic properties of propane. IV. A reference equation of state for temperatures from the melting line to 650 K and pressures up to 1000 MPa. J. Chem. Eng. Data 54 (2009), 3141-3180.

174.

Feistel, R., Wright, D. G., Jackett, D. R., Miyagawa, K., Reissmann, J. H., Wagner, W., Overhoff, U., Guder, C., Feistel, A., Marion, G. M. Numerical implementation and oceanographic application of the thermodynamic potentials of water, ice, seawater and air – Part 1: Background and equations. Ocean Sci. 6 (2010), 633-677.

175.

Wright, D. G., Feistel, R., Jackett, D. R., Miyagawa, K., Reissmann, J. H., Wagner, W., Overhoff, U., Guder, C., Feistel, A., Marion, G. M. Numerical implementation and oceanographic application of the thermodynamic potentials of water, ice, seawater and air – Part 2: The library routines. Ocean Sci. 6 (2010), 695-718.

176.

Richter, M., Kleinrahm, R., Glos, S., Wagner, W., Span, R., Schley, P., Uhrig, M. A two-sinker densimeter for accurate measurements of the density of natural gases at standard conditions. Int. J. Thermophysics 31 (2010), 680-697.

177.

Wagner, W., Kretzschmar, H.-J. Properties of Water and Steam. VDI-Heat Atlas, Second edition, Section D2.1, 153-171, Springer-Verlag, Berlin Heidelberg, 2010.

178.

Sommer, D., Kleinrahm, R., Span, R., Wagner, W. Measurements and correlation of the (p,ρ,T) relation of liquid cyclohexane, toluene, and ethanol in the temperature range from 233.15 K to 473.15 K at pressures up to 30 MPa for use as density reference liquids. J. Chem. Thermodynamics. 43 (2011), 117-132.

179.

Wagner, W., Kurzeja, N. Letter to the editor. Int. J. Thermophys. 32 (2011), 549-552.

180.

Lemmon, E. W., Ortiz-Vega, D. O., Starling, K. E., Hall, K. R., Wagner, W. Deviations between the AGA-8 and GERG-2008 equations of state for natural gases. Natural Gas Sampling Technology Conference (NGSTech), New Orleans, January 26, 2011.

181.

Wagner, W., Riethmann, T., Feistel, R., Harvey, A. H. New equations for the melting pressure and sublimation pressure of H2O ice Ih. J. Phys. Chem. Ref. Data 40 (2011), online publication (05.12.2011), 043103-1 – 043103-11 .

182.

Kunz, O., Wagner, W. The GERG-2008 Wide-Range Equation of State for Natural Gases and Other Mixtures: An Expansion of GERG-2004. Submitted to J. Chem. Eng. Data 57 (2012); 3032-3091 (online publikation 31.10.2012).

183.

Wagner, W., Kretzschmar, H.-J. Stoffwerte von Wasser. VDI-Wärmeatlas, 11. Auflage, D2.1, 1-15, Springer-Verlag, Berlin, 2013.

184.

Wagner, W., Dauber, F., Kretzschmar, H.-J., Mareš, R., Miyagawa, K., Span, R. Extended equation for region 5 of the Industrial Formulation IAPWS-IF97. Proceedings of the International Conference on the Properties of Water and Steam, September 2013, University of Greenwich, London, UK, Institution of Mechanical Engineers, London SW1H 9JJ, UK.

185.

Kretzschmar, H.-J. Feistel, R., Wagner, W., Miyagawa, K., Harvey, A. H., Cooper, J. R., Hiegemann, M. Blangetti, F. L., Orlov, K. A., Weber, I., Singh, A., Herrmann, S.: The IAPWS Industrial Formulation for the Thermodynamic Properties of Seawater. Desalination and Water Treament 55 (2015), 1177-1199.

186.

Wagner, W., Thol, M. The behavior of IAPWS-95 at temperatures from 250 K to 300 K and pressures up to 400 MPa: Evaluation based on recently derived property data.  J. Phys. Chem. Ref. Data 44 (2015), 043102.

187.

Lemmon, E., Overhoff, U., McLinden M. O., Wagner, W. A reference equation of state for the thermodynamic properties of propene for temperatures from the melting line to 575 K and pressures up to 1000 MPa. To be submitted to J. Phys. Chem. Ref. Data (2016).