@book
{TN_libero_mab2,
author = {
De Pablo, Juan J.
AND
Schieber, Jay D.
},
title = {
Molecular engineering thermodynamics
},
publisher = {Cambridge Univ. Press},
isbn = {9780521765626},
keywords = {
Thermodynamics
,
Chemical engineering
,
Molecular dynamics
,
Thermochemie
},
year = {2014},
abstract = {Literaturverz. S. [470] - 476},
abstract = {1. Introduction2. The postulates of thermodynamics -- 3. Generalized thermodynamic potentials -- 4. First applications of thermodynamics -- 5. Application to process design: flow systems -- 6. Statistical mechanics -- 7. Molecular interactions -- 8. Fugacity and vapor-liquid equilibrium -- 9. Activity and equilibrium -- 10. Reaction equilibrium -- 11. Thermodynamics of polymers -- 12. Thermodynamics of surfaces.},
abstract = {Machine generated contents note: 1. Introduction; 2. The postulates of thermodynamics; 3. Generalized thermodynamic potentials; 4. First applications of thermodynamics; 5. Application to process design: flow systems; 6. Statistical mechanics; 7. Molecular interactions; 8. Fugacity and vapor-liquid equilibrium; 9. Activity, vapor-liquid, and liquid-liquid equilibrium; 10. Reaction equilibrium; 11. Thermodynamics of polymers; 12. Thermodynamics of surfaces; Appendix A. Mathematical background; Appendix B. Fluid equations of state; Appendix C. Microscopic balances for open systems; Bibliography; Index.},
booktitle = {Cambridge series chemical engineering},
address = {
Cambridge
},
url = {
http://slubdd.de/katalog?TN_libero_mab2
}
}