The main part of this book consists of tables of the equilibrium thermodynamic properties of oxygen for both the gas and liquid phases and along the saturation curve and the melting curve. The limits of the tables are 54k to 300k for pressures up to 80MPa. The properties listed are volume, entropy, enthalpy, isobaric heat capacity, compression factor, fugacity-pressure ratio, Joule-Thomson coefficient, ratio of heat capacities and speed of sound as functions of pressure and temperature; and pressure, entropy, internal ...
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The main part of this book consists of tables of the equilibrium thermodynamic properties of oxygen for both the gas and liquid phases and along the saturation curve and the melting curve. The limits of the tables are 54k to 300k for pressures up to 80MPa. The properties listed are volume, entropy, enthalpy, isobaric heat capacity, compression factor, fugacity-pressure ratio, Joule-Thomson coefficient, ratio of heat capacities and speed of sound as functions of pressure and temperature; and pressure, entropy, internal energy and isochoric heat capacity as functions of density and temperature. The text gives a critical assessment of the accuracy of all the available experimental data and gives comparisons of the tables with the experimental data. The equations which were used to prepare the tables are given in a form suitable for computer programming.
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Seller's Description:
This is an ex-library book and may have the usual library/used-book markings inside. This book has hardback covers. In good all round condition. No dust jacket. Please note the Image in this listing is a stock photo and may not match the covers of the actual item, 450grams, ISBN: 0632014768.
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Seller's Description:
Good. Issued without a dust jacket. 7" x 10" Text clean & bright; binding tight; minor wear to covers. 231 pages. Illustrated. "The available equations of state are discussed and a description is given of the construction of the chosen equation of state. For the convenience of users who are only interested in restricted states of the fluid, auxiliary equations are given for the pressure-temperature relation at saturation and the density-temperature relations of the saturated liquid and vapor. It is then explained how the tabulated properties were calculated from the chosen equation of state, and tabulations are given of the derived functions in order to assist those who wish to prepare computer programs for them."