1. Thermophysical Properties of Fluids

  1. Myer Kutz
  1. Peter E. Liley

Published Online: 16 FEB 2006

DOI: 10.1002/0471777471.ch1

Book Title

Mechanical Engineers' Handbook: Energy and Power, Volume 4, Third Edition

Mechanical Engineers' Handbook: Energy and Power, Volume 4, Third Edition

Additional Information

How to Cite

Liley, P. E. (2006) Thermophysical Properties of Fluids, in Mechanical Engineers' Handbook: Energy and Power, Volume 4, Third Edition (ed M. Kutz), John Wiley & Sons, Inc., Hoboken, NJ, USA. doi: 10.1002/0471777471.ch1

Author Information

  1. School of Mechanical Engineering, Purdue University, West Lafayette, Indiana, USA

Publication History

  1. Published Online: 16 FEB 2006
  2. Published Print: 4 NOV 2005

ISBN Information

Print ISBN: 9780471719885

Online ISBN: 9780471777472

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Keywords:

  • thermophysical properties of fluids;
  • energy;
  • saturated refrigerant

Summary

This chapter contains sections titled:

  • Table 1: Conversion Factors

  • Table 2: Phase Transition Data for the Elements

  • Table 3: Phase Transition Data for Compounds

  • Table 4: Thermodynamic Properties of Liquid and Saturated Vapor Air

  • Table 5: Ideal Gas Thermophysical Properties of Air

  • Table 6: Thermophysical Properties of the U.S. Standard Atmosphere

  • Table 7: Thermophysical Properties of Condensed and Saturated Vapor Carbon Dioxide from 200 K to the Critical Point

  • Table 8: Thermophysical Properties of Gaseous Carbon Dioxide at 1 Bar Pressure

  • Figure 1: Enthalpy–log Pressure Diagram for Carbon Dioxide

  • Table 9: Thermodynamic Properties of Saturated Mercury

  • Figure 2: Enthalpy–log Pressure Diagram for Mercury

  • Table 10: Thermodynamic Properties of Saturated Methane

  • Table 11: Thermophysical Properties of Methane at Atmospheric Pressure

  • Table 12: Thermophysical Properties of Saturated Refrigerant 22

  • Table 13: Thermophysical Properties of Refrigerant 22 at Atmospheric Pressure

  • Figure 3: Enthalpy–log Pressure Diagram for Refrigerant 22

  • Table 14: Thermodynamic Properties of Saturated Refrigerant 134A

  • Table 15: Thermophysical Properties of Refrigerant 134A

  • Figure 4: Compressibility Factor of Refrigerant 134A

  • Figure 5: Enthalpy–log Pressure Diagram for Refrigerant 134A

  • Table 16: Thermodynamic Properties of Saturated Sodium

  • Table 17: Thermodynamic Properties of Ice/Water

  • Table 18: Thermodynamic Properties of Saturated Steam/Water

  • Table 19: Thermophysical Properties of Miscellaneous Substances at Atmospheric Pressure

  • Table 20: Physical Properties of Numbered Refrigerants

  • Table 21: Specific Heat (kJ/kg.K) at Constant Pressure of Saturated Liquids

  • Table 22: Ratio of Principal Specific Heats, Cp/Cv, for Liquids and Gases at Atmospheric Pressure

  • Table 23: Surface Tension (N/m) of Liquids

  • Table 24: Thermal Conductivity (W/m.K) of Saturated Liquids

  • Table 25: Viscosity (10−4 Pa.s) of Saturated Liquids

  • Table 26: Thermochemical Properties at 1.013 Bar, 298.15 K

  • Table 27: Ideal Gas Sensible Enthalpies (kJ/kg.mol) of Common Products of Combustion

  • Figure 6: Psychrometric Chart

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