Mass transfer and separation processes : principles and applications /

Bibliographic Details
Main Author: Basmadjian, Diran
Corporate Author: Taylor & Francis
Format: eBook
Language:English
Published: Boca Raton : CRC Press, Ã2007.
Edition:2nd ed.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Some Basic Notions. Rates of Mass Transport ; Gradient-Driven and Forced Transport; Transport Driven by a Potential Difference. The Film Concept and the Mass Transfer Coefficient; The Two-Film Theory; Modeling Mass Transport: The Mass Balances ; The Compartment or Stirred Tank and the One-Dimensional Pipe; The Classification of Mass Balances; The Information Obtained from Model Solutions; Setting-up Partial Differential Equations; The General Conservation Equations; Diffusion Through Gases, Liquids and Solids ; Diffusion Coefficients; More About Diffusion. Transient Diffusion and Diffusion with Reaction ; Transient Diffusion; Diffusion and Reaction; More About Mass Transfer Coefficients ; Dimensionless Groups; Mass Transfer Coefficients in Laminar Flow: Extraction from the PDE Model; Mass Transfer in Turbulent Flow.
  • Dimensional Analysis and the Buckingham p Theorem; Mass Transfer Coefficients for Tower Packings; Mass Transfer Coefficients in Agitated Vessels; Mass Transfer Coefficients in the Environment: Uptake and Clearance of Toxic Substances in Animals. The Bioconcentration Factor; Phase Equilibria ; Single Component Systems. Vapor Pressure; Multicomponent Systems: Distribution of a Single Solute; Multicomponent Equilibria.
  • Distribution of Several Components; Staged Operations: The Equilibrium Stage ; Equilibrium Stages; Staged Cascades; The Equilibrium Stage in the Real World; Multistage Distillation; Percolation Processes; Stage Efficiencies; Continuous-Contact Operations ; Packed-Column Operations; Membrane Processes; Simultaneous Heat and Mass Transfer ; The Air-Water System: Humidification and Dehumidification, Evaporative Cooling; Drying Operations; Heat Effects in a Catalyst Pellet. The Nonisothermal Effectiveness Factor; References ; Appendix