Basic principles and calculations in chemical engineering /
David M. Himmelblau, James B. Riggs.
- 7th ed. Int. ed.
- Upper Saddle River, N.J. : Prentice Hall Professional Technical Reference, c2004.
- xxx, 1120 p. : ill. ; 25 cm. + 1 CD-ROM (4 3/4 in.)
- Prentice Hall PTR international series in the physical and chemical engineering sciences. .
- Prentice-Hall international series in the physical and chemical engineering sciences. .
Accompanied by 1 sheet containing tables and charts folded and inserted in pocket at end of book.
Preface. - Read me. - Frequently asked questions. - Pt. 1. Introduction. 1. Dimensions, Units, and Their Conversion. 2. Moles, Density, and Concentration. 3. Choosing a Basis. 4. Temperature. 5. Pressure. - Pt. 2. Material Balances. 6. Introduction to Material Balances. 7. A General Strategy for Solving Material Balance Problems. 8. Solving Material Balance Problems for Single Units without Reaction. 9. The Chemical Reaction Equation and Stoichiometry. 10. Material Balances for Processes Involving Reactions. 11. Material Balance Problems Involving Multiple Units. 12. Recycle, Bypass, Purge, and the Industrial Application of Material Balances. - Pt. 3. Gases, Vapors, Liquids, and Solids. 13. Ideal Gases. 14. Real Gases: Compressibility. 15. Real Gases: Equations of State. 16. Single Component Two-Phase Systems (Vapor Pressure). 17. Two-Phase Gas-Liquid Systems (Saturation, Condensation, and Vaporization). 18. Two-Phase Gas-Liquid Systems (Partial Saturation and Humidity). 19. The Phase Rule and Vapor-Liquid Equilibria. 20. Liquids and Gases in Equilibrium with Solids. - Pt. 4. Energy Balances. 21. Energy: Terminology, Concepts, and Units. 22. Introduction to Energy Balances for Processes without Reaction. 23. Calculation of Enthalpy Changes. 24. Application of Energy Balances in the Absence of Chemical reactions. 25. Energy Balances: How to Account for Chemical Reaction. 26. Energy Balances That Include the Effects of Chemical Reaction. 27. Ideal Processes, Efficiency, and the Mechanical Energy Balance. 28. Heats of Solution and Mixing. 29. Humidity (Psychrometric) Charts and Their Use. - Pt. 5. Supplementary Material (on the accompanying CD). 30. Analysis of the Degrees of Freedom in a Steady-State Process. 31. Solving Material and Energy Balances Using Process Simulators (Flowsheeting Codes). 32. Unsteady-State Material and Energy Balances. - Appendices. - A. Answers to Self-Assessment Tests. - B. Atomic Weights and Numbers. - C. Table of the Pitzer z0 and z1 Factors.- D. Physical Properties of Various Organic and Inorganic Substances. - E. Heat Capacity Equations F Heats of Formation and Combustion. - G. Vapor Pressures. - H. Heats of Solution and Dilution. - I. Enthalpy-Concentration Data. - J. Thermodynamic Charts. - K. Physical Properties of Petroleum Fractions. - L. Solution of Sets of Equations. - M. Fitting Functions to Data. - N. Answers to Selected Problems. - Index.