Jürgen Millat / J. H. Dymond / C. A. Nieto de Castro (eds.)
Transport Properties of Fluids
Their Correlation, Prediction and Estimation
Herausgeber: Castro, C. A. Nieto de; Millat, Jurgen; Dymond, J. H.
Jürgen Millat / J. H. Dymond / C. A. Nieto de Castro (eds.)
Transport Properties of Fluids
Their Correlation, Prediction and Estimation
Herausgeber: Castro, C. A. Nieto de; Millat, Jurgen; Dymond, J. H.
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Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 500
- Erscheinungstermin: 29. September 2005
- Englisch
- Abmessung: 244mm x 170mm x 27mm
- Gewicht: 854g
- ISBN-13: 9780521022903
- ISBN-10: 0521022908
- Artikelnr.: 21779787
Foreword; Part I. General: 1. Introduction J. Millat
J. H. Dymond and C. A. Nieto de Castro; 2. Technological importance W. A. Wakeham and C. A. Nieto de Castro; 3. Methodology C. A. Nieto de Castro and W. A. Wakeham; Part II. Theory: 4. Transport properties of dilute gases and gaseous mixtures J. Millat
V. Vesovic and W. A. Wakeham; 5. Dense fluids J. H. Dymond
E. Bich
E. Vogel
W. A. Wakeham
V. Vesovic and M. J. Assael; 6. The critical enhancements J. V. Sengers and J. Luettmer-Strathmann; Part III. Data Representation: 7. Correlation techniques D. G. Friend and R. A. Perkins; 8. Equations of state K. M. de Reuck
R. J. B. Craven and A. E. Elhassan; Part IV. Application of Selected Methods: 9. Computer calculation C. Hoheisel; H J. M. Hanley and D. J. Evans; 10. Modified hard-spheres scheme J. H. Dymond and M. J. Assael; 11. The corresponding-states principle: dilute gases E. A. Mason and F. J. Uribe; 12. The corresponding-states principle: dense fluids M. L. Huber and H. J. M. Hanley; 13. Empirical estimation B. E. Poling; Part V. Application to Selected Substances: 14. Pure fluids E. P. Sakonidou
H. R. van den Berg
J. V. Sengers
J. Millat
V. Vesovic
A. Nagashima
J. H. Dymond
R. Krauss and K. Stephan; 15. Binary mixtures: carbon dioxide-ethane W. A. Wakeham
V. Vesovic
E. Vogel and S. Hendl; 16. Reacting mixtures at low density - alkali metal vapours P. S. Fialho
M. L. V. Ramires
C. A. Nieto de Castro and J. M. N. A. Fareleira; Part VI. Data Banks and Prediction Packages: 17. Data collection and dissemination systems R. Krauss
K. Stephan
A. I. Johns
J. T. R. Watson
K. M. de Reuck
R. J. B. Craven
A. E. Elhassan
K. N. Marsh
R. C. Wilhoit and A. A. Vasserman; Index.
J. H. Dymond and C. A. Nieto de Castro; 2. Technological importance W. A. Wakeham and C. A. Nieto de Castro; 3. Methodology C. A. Nieto de Castro and W. A. Wakeham; Part II. Theory: 4. Transport properties of dilute gases and gaseous mixtures J. Millat
V. Vesovic and W. A. Wakeham; 5. Dense fluids J. H. Dymond
E. Bich
E. Vogel
W. A. Wakeham
V. Vesovic and M. J. Assael; 6. The critical enhancements J. V. Sengers and J. Luettmer-Strathmann; Part III. Data Representation: 7. Correlation techniques D. G. Friend and R. A. Perkins; 8. Equations of state K. M. de Reuck
R. J. B. Craven and A. E. Elhassan; Part IV. Application of Selected Methods: 9. Computer calculation C. Hoheisel; H J. M. Hanley and D. J. Evans; 10. Modified hard-spheres scheme J. H. Dymond and M. J. Assael; 11. The corresponding-states principle: dilute gases E. A. Mason and F. J. Uribe; 12. The corresponding-states principle: dense fluids M. L. Huber and H. J. M. Hanley; 13. Empirical estimation B. E. Poling; Part V. Application to Selected Substances: 14. Pure fluids E. P. Sakonidou
H. R. van den Berg
J. V. Sengers
J. Millat
V. Vesovic
A. Nagashima
J. H. Dymond
R. Krauss and K. Stephan; 15. Binary mixtures: carbon dioxide-ethane W. A. Wakeham
V. Vesovic
E. Vogel and S. Hendl; 16. Reacting mixtures at low density - alkali metal vapours P. S. Fialho
M. L. V. Ramires
C. A. Nieto de Castro and J. M. N. A. Fareleira; Part VI. Data Banks and Prediction Packages: 17. Data collection and dissemination systems R. Krauss
K. Stephan
A. I. Johns
J. T. R. Watson
K. M. de Reuck
R. J. B. Craven
A. E. Elhassan
K. N. Marsh
R. C. Wilhoit and A. A. Vasserman; Index.
Foreword; Part I. General: 1. Introduction J. Millat
J. H. Dymond and C. A. Nieto de Castro; 2. Technological importance W. A. Wakeham and C. A. Nieto de Castro; 3. Methodology C. A. Nieto de Castro and W. A. Wakeham; Part II. Theory: 4. Transport properties of dilute gases and gaseous mixtures J. Millat
V. Vesovic and W. A. Wakeham; 5. Dense fluids J. H. Dymond
E. Bich
E. Vogel
W. A. Wakeham
V. Vesovic and M. J. Assael; 6. The critical enhancements J. V. Sengers and J. Luettmer-Strathmann; Part III. Data Representation: 7. Correlation techniques D. G. Friend and R. A. Perkins; 8. Equations of state K. M. de Reuck
R. J. B. Craven and A. E. Elhassan; Part IV. Application of Selected Methods: 9. Computer calculation C. Hoheisel; H J. M. Hanley and D. J. Evans; 10. Modified hard-spheres scheme J. H. Dymond and M. J. Assael; 11. The corresponding-states principle: dilute gases E. A. Mason and F. J. Uribe; 12. The corresponding-states principle: dense fluids M. L. Huber and H. J. M. Hanley; 13. Empirical estimation B. E. Poling; Part V. Application to Selected Substances: 14. Pure fluids E. P. Sakonidou
H. R. van den Berg
J. V. Sengers
J. Millat
V. Vesovic
A. Nagashima
J. H. Dymond
R. Krauss and K. Stephan; 15. Binary mixtures: carbon dioxide-ethane W. A. Wakeham
V. Vesovic
E. Vogel and S. Hendl; 16. Reacting mixtures at low density - alkali metal vapours P. S. Fialho
M. L. V. Ramires
C. A. Nieto de Castro and J. M. N. A. Fareleira; Part VI. Data Banks and Prediction Packages: 17. Data collection and dissemination systems R. Krauss
K. Stephan
A. I. Johns
J. T. R. Watson
K. M. de Reuck
R. J. B. Craven
A. E. Elhassan
K. N. Marsh
R. C. Wilhoit and A. A. Vasserman; Index.
J. H. Dymond and C. A. Nieto de Castro; 2. Technological importance W. A. Wakeham and C. A. Nieto de Castro; 3. Methodology C. A. Nieto de Castro and W. A. Wakeham; Part II. Theory: 4. Transport properties of dilute gases and gaseous mixtures J. Millat
V. Vesovic and W. A. Wakeham; 5. Dense fluids J. H. Dymond
E. Bich
E. Vogel
W. A. Wakeham
V. Vesovic and M. J. Assael; 6. The critical enhancements J. V. Sengers and J. Luettmer-Strathmann; Part III. Data Representation: 7. Correlation techniques D. G. Friend and R. A. Perkins; 8. Equations of state K. M. de Reuck
R. J. B. Craven and A. E. Elhassan; Part IV. Application of Selected Methods: 9. Computer calculation C. Hoheisel; H J. M. Hanley and D. J. Evans; 10. Modified hard-spheres scheme J. H. Dymond and M. J. Assael; 11. The corresponding-states principle: dilute gases E. A. Mason and F. J. Uribe; 12. The corresponding-states principle: dense fluids M. L. Huber and H. J. M. Hanley; 13. Empirical estimation B. E. Poling; Part V. Application to Selected Substances: 14. Pure fluids E. P. Sakonidou
H. R. van den Berg
J. V. Sengers
J. Millat
V. Vesovic
A. Nagashima
J. H. Dymond
R. Krauss and K. Stephan; 15. Binary mixtures: carbon dioxide-ethane W. A. Wakeham
V. Vesovic
E. Vogel and S. Hendl; 16. Reacting mixtures at low density - alkali metal vapours P. S. Fialho
M. L. V. Ramires
C. A. Nieto de Castro and J. M. N. A. Fareleira; Part VI. Data Banks and Prediction Packages: 17. Data collection and dissemination systems R. Krauss
K. Stephan
A. I. Johns
J. T. R. Watson
K. M. de Reuck
R. J. B. Craven
A. E. Elhassan
K. N. Marsh
R. C. Wilhoit and A. A. Vasserman; Index.