Elias I Franses
Thermodynamics with Chemical Engineering Applications
Elias I Franses
Thermodynamics with Chemical Engineering Applications
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Master the principles of thermodynamics, and understand their practical real-world applications, with this deep and intuitive undergraduate textbook.
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Master the principles of thermodynamics, and understand their practical real-world applications, with this deep and intuitive undergraduate textbook.
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Archive Editions
- Seitenzahl: 466
- Erscheinungstermin: 25. August 2014
- Englisch
- Abmessung: 254mm x 195mm x 27mm
- Gewicht: 1203g
- ISBN-13: 9781107069756
- ISBN-10: 1107069750
- Artikelnr.: 41313869
- Verlag: Archive Editions
- Seitenzahl: 466
- Erscheinungstermin: 25. August 2014
- Englisch
- Abmessung: 254mm x 195mm x 27mm
- Gewicht: 1203g
- ISBN-13: 9781107069756
- ISBN-10: 1107069750
- Artikelnr.: 41313869
Elias I. Franses has been a Professor of Chemical Engineering at Purdue University for over 30 years. An expert in thermodynamics, he has taught numerous courses on this topic to chemical engineering students of all levels.
1. Introduction and synopsis; 2. Problems and concepts at the interface of mechanics and thermodynamics; 3. Phases
interfaces
dispersions
and the first three principles of thermodynamics; 4. Internal energy
the First Law
heat
conservation of total energy; 5. Equations of state for one-component and multicomponent systems; 6. Applications of the mass and energy balances and the equations of state to several classes of thermodynamic problems; 7. The Second Law
absolute temperature
entropy definition and calculation
and entropy inequality; 8. Further implications of the Second Law. Introduction of Helmholtz free energy
Gibbs free energy
chemical potential
and applications to phase equilibria
heat transfer and mass transfer; 9. Thermodynamic fugacity
thermodynamic activity
and other thermodynamic functions (U
H
S
A
G
¿i) of ideal and nonideal solutions; 10. Vapor-liquid equilibria (VLE) with applications to distillation; 11. Gas-liquid equilibria (GLE) and applications to gas absorption or desorption; 12. Applications to liquid-liquid equilibria and liquid-liquid extraction; 13. Osmosis
osmotic pressure
osmotic equilibrium
and reverse osmosis; 14. Third Law and molecular basis of the Second and Third Laws; 15. Some special implications and applications of the First and Second Laws; 16. Chemical reaction equilibria: one reaction; 17. Chemical reaction equilibria: two or more reactions occurring simultaneously; 18. Applications of thermodynamics to energy engineering and environmental engineering.
interfaces
dispersions
and the first three principles of thermodynamics; 4. Internal energy
the First Law
heat
conservation of total energy; 5. Equations of state for one-component and multicomponent systems; 6. Applications of the mass and energy balances and the equations of state to several classes of thermodynamic problems; 7. The Second Law
absolute temperature
entropy definition and calculation
and entropy inequality; 8. Further implications of the Second Law. Introduction of Helmholtz free energy
Gibbs free energy
chemical potential
and applications to phase equilibria
heat transfer and mass transfer; 9. Thermodynamic fugacity
thermodynamic activity
and other thermodynamic functions (U
H
S
A
G
¿i) of ideal and nonideal solutions; 10. Vapor-liquid equilibria (VLE) with applications to distillation; 11. Gas-liquid equilibria (GLE) and applications to gas absorption or desorption; 12. Applications to liquid-liquid equilibria and liquid-liquid extraction; 13. Osmosis
osmotic pressure
osmotic equilibrium
and reverse osmosis; 14. Third Law and molecular basis of the Second and Third Laws; 15. Some special implications and applications of the First and Second Laws; 16. Chemical reaction equilibria: one reaction; 17. Chemical reaction equilibria: two or more reactions occurring simultaneously; 18. Applications of thermodynamics to energy engineering and environmental engineering.
1. Introduction and synopsis; 2. Problems and concepts at the interface of mechanics and thermodynamics; 3. Phases
interfaces
dispersions
and the first three principles of thermodynamics; 4. Internal energy
the First Law
heat
conservation of total energy; 5. Equations of state for one-component and multicomponent systems; 6. Applications of the mass and energy balances and the equations of state to several classes of thermodynamic problems; 7. The Second Law
absolute temperature
entropy definition and calculation
and entropy inequality; 8. Further implications of the Second Law. Introduction of Helmholtz free energy
Gibbs free energy
chemical potential
and applications to phase equilibria
heat transfer and mass transfer; 9. Thermodynamic fugacity
thermodynamic activity
and other thermodynamic functions (U
H
S
A
G
¿i) of ideal and nonideal solutions; 10. Vapor-liquid equilibria (VLE) with applications to distillation; 11. Gas-liquid equilibria (GLE) and applications to gas absorption or desorption; 12. Applications to liquid-liquid equilibria and liquid-liquid extraction; 13. Osmosis
osmotic pressure
osmotic equilibrium
and reverse osmosis; 14. Third Law and molecular basis of the Second and Third Laws; 15. Some special implications and applications of the First and Second Laws; 16. Chemical reaction equilibria: one reaction; 17. Chemical reaction equilibria: two or more reactions occurring simultaneously; 18. Applications of thermodynamics to energy engineering and environmental engineering.
interfaces
dispersions
and the first three principles of thermodynamics; 4. Internal energy
the First Law
heat
conservation of total energy; 5. Equations of state for one-component and multicomponent systems; 6. Applications of the mass and energy balances and the equations of state to several classes of thermodynamic problems; 7. The Second Law
absolute temperature
entropy definition and calculation
and entropy inequality; 8. Further implications of the Second Law. Introduction of Helmholtz free energy
Gibbs free energy
chemical potential
and applications to phase equilibria
heat transfer and mass transfer; 9. Thermodynamic fugacity
thermodynamic activity
and other thermodynamic functions (U
H
S
A
G
¿i) of ideal and nonideal solutions; 10. Vapor-liquid equilibria (VLE) with applications to distillation; 11. Gas-liquid equilibria (GLE) and applications to gas absorption or desorption; 12. Applications to liquid-liquid equilibria and liquid-liquid extraction; 13. Osmosis
osmotic pressure
osmotic equilibrium
and reverse osmosis; 14. Third Law and molecular basis of the Second and Third Laws; 15. Some special implications and applications of the First and Second Laws; 16. Chemical reaction equilibria: one reaction; 17. Chemical reaction equilibria: two or more reactions occurring simultaneously; 18. Applications of thermodynamics to energy engineering and environmental engineering.