Open-ended problems : a future chemical engineering education approach /

This is a unique book with nearly 1000 problems and 50 case studies on open-ended problems in every key topic in chemical engineering that helps to better prepare chemical engineers for the future.℗ The term "open-ended problem" basically describes an approach to the solution of a problem...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Abulencia, J. Patrick
Otros Autores: Theodore, Louis
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Hoboken, New Jersey : Scrivener Publishing / John Wiley and Sons, Inc., [2014]
Temas:
Chemical engineering > Problems, exercises, etc.
SCIENCE > Chemistry > Industrial & Technical.
TECHNOLOGY & ENGINEERING > Chemical & Biochemical.
Chemical engineering
Problems and exercises
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title Page; Copyright Page; Contents; Preface; Acknowledgements; Part I: IntroductionIntroduction to the Open-Ended Problem Approach; Part II: Chemical Engineering Topics; 1 Materials Science and Engineering; 1.1 Overview; 1.2 Crystallography of Perfect Crystals (CPC); 1.2.1 Geometry of Metallic Unit Cells; 1.2.2 Geometry of Ionic Unit Cells; 1.2.3 Packing Factors; 1.2.4 Directions and Planes; 1.3 Crystallography of Real Crystals (CRC); 1.3.1 Interstitial Impurities; 1.4 Materials of Construction; 1.5 Resistivity; 1.6 Semiconductors; 1.7 Illustrative Open-Ended Problems.
  • 1.8 Open-Ended ProblemsReferences; 2 Applied Mathematics; 2.1 Overview; 2.2 Differentiation and Integration; 2.3 Simultaneous Linear Algebraic Equations; 2.4 Nonlinear Algebraic Equations; 2.5 Ordinary and Partial Differential Equation; 2.6 Optimization; 2.7 Illustrative Open-Ended Problems; 2.8 Open-Ended Problems; References; 3 Stoichiometry; 3.1 Overview; 3.2 The Conservation Law; 3.3 Conservation of Mass, Energy, and Momentum; 3.4 Stoichiometry; 3.5 Illustrative Open-Ended Problems; 3.6 Open-Ended Problems; References; 4 Thermodynamics; 4.1 Overview; 4.2 Enthalpy Effects.
  • 4.2.1 Sensible Enthalpy Effects4.2.2 Chemical Reaction Enthalpy Effects; 4.3 Second Law Calculations; 4.4 Phase Equilibrium; 4.5 Chemical Reaction Equilibrium; 4.6 Illustrative Open-Ended Problems; 4.7 Open-Ended Problems; References; 5 Fluid Flow; 5.1 Overview; 5.2 Basic Laws; 5.3 Key Fluid Flow Equations; 5.3.1 Reynolds Number; 5.3.2 Conduits; 5.3.3 Mechanical Energy Equation
  • Modified Form; 5.3.4 Laminar Flow Through a Circular Tube; 5.3.5 Turbulent Flow Through a Circular Conduit; 5.3.6 Two Phase Flow; 5.3.7 Prime Movers; 5.3.8 Valves and Fittings; 5.4 Fluid-Particle Applications.
  • 5.4.1 Flow Through Porous Media5.4.2 Filtration; 5.4.3 Fluidization; 5.5 Illustrative Open-Ended Problems; 5.6 Open-Ended Problems; References; 6 Heat Transfer; 6.1 Overview; 6.2 Conduction; 6.3 Convection; 6.4 Radiation; 6.5 Condensation, Boiling, Refrigeration, and Cryogenics; 6.6 Heat Exchangers; 6.7 Illustrative Open-Ended Problems; 6.8 Open-Ended Problems; References; 7 Mass Transfer Operations; 7.1 Overview; 7.2 Absorption; 7.2.1 Packing Height; 7.2.2 Tower Diameter; 7.2.3 Plate Columns; 7.2.4 Stripping; 7.2.5 Summary of Key Equations; 7.3 Adsorption; 7.3.1 Adsorption Design.
  • 7.3.2 Regeneration7.4 Distillation; 7.5 Other Mass Transfer Processes; 7.5.1 Liquid-Liquid Extraction; 7.5.2 Leaching; 7.5.3 Humidification and Drying; 7.5.4 Membrane Processes; 7.6 Illustrative Open-Ended Problems; 7.7 Open-Ended Problems; References; 8 Chemical Reactors; 8.1 Overview; 8.2 Chemical Kinetics; 8.3 Batch Reactors; 8.4 Continuous Stirred Tank Reactors (CSTRs); 8.5 Tubular Flow Reactors; 8.6 Catalytic Reactors; 8.6.1 Fluidized Bed Reactors; 8.6.2 Fixed Bed Reactors; 8.7 Thermal Effects; 8.7.1 Batch Reactors; 8.7.2 CSTRs; 8.7.3 Tubular Flow Reactions.

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