Introduction to Chemical Engineering ThermodynamicsMcGraw-Hill, 2001 - 789 pagine Introduction to Chemical Engineering Thermodynamics, 6/e, presents comprehensive coverage of the subject of thermodynamics from a chemical engineering viewpoint. The text provides a thorough exposition of the principles of thermodynamics and details their application to chemical processes. The chapters are written in a clear, logically organized manner, and contain an abundance of realistic problems, examples, and illustrations to help students understand complex concepts. New ideas, terms, and symbols constantly challenge the readers to think and encourage them to apply this fundamental body of knowledge to the solution of practical problems. The comprehensive nature of this book makes it a useful reference both in graduate courses and for professional practice. The sixth edition continues to be an excellent tool for teaching the subject of chemical engineering thermodynamics to undergraduate students. |
Sommario
THE FIRST LAW AND OTHER BASIC CONCEPTS | 20 |
VOLUMETRIC PROPERTIES OF PURE FLUIDS | 62 |
HEAT EFFECTS | 122 |
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Introduction to Chemical Engineering Thermodynamics Joseph Mauk Smith,Michael M. Abbott,Hendrick C. Van Ness Anteprima non disponibile - 2001 |
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activity coefficients adiabatic adsorbate adsorption applied Assume calculation Carnot chemical cm³ mol-1 composition compression condenser constant correlation curve cycle determine diagram engine enthalpy entropy entropy change equation equilibrium evaluated Example expression flow fluid fugacity function gases GE/RT Gibbs energy given by Eq H₁ heat capacity heat transfer Henry's law ideal gas initial internal energy irreversible isentropic isobutane isotherm kJ kg-1 liquid phase liquid water mass mechanically reversible methane mixture molar volume mole fraction molecular molecules nitrogen nozzle P₁ P₂ parameters piston Psat pure species Raoult's law reaction refrigeration represented result saturated liquid saturated vapor solution T₁ T₂ Table tank temperature thermal efficiency thermodynamic thermodynamic properties turbine V₁ values vapor phase vapor pressure velocity virial coefficients virial equation VUIS VUIS y₁ yields zero ΔΗ ӘР