Depriester chart for isopropyl alcohol
A relatively simple matrix approach using the θ method of convergence will be outlined in this section. Details of these procedures are available in a variety of textbooks (Seader and Henley, 2006 Holland, 1981 King, 1980 and Smith, 1963). Since distillation is a very important separation technique, considerable effort has been spent in devising better calculation procedures. These methods are not restricted to cases where a good guess of compositions can be made.Ħ.1 Introduction to Matrix Solution for Multicomponent Distillation Because stage-by-stage calculations are restricted to problems where a good first guess of compositions can be made at some point in the column, matrix methods for multicomponent distillation will be used. Since multicomponent calculations are trial-and-error, it is convenient to do them on a computer.
#DEPRIESTER CHART FOR ISOPROPYL ALCOHOL PLUS#
Aspen Plus Troubleshooting Guide for SeparationsĬhapter 6: Exact Calculation Procedures for Multicomponent Distillation Chapter 17: Introduction to Adsorption, Chromatography, and Ion Exchange.Chapter 16: Introduction to Membrane Separation Processes.Chapter 14: Extraction of Partially Miscible Systems.Chapter 13: Immiscible Extraction, Washing, Leaching, and Supercritical Extraction.Chapter 11: Economics and Energy Conservation in Distillation.Chapter 10: Staged and Packed Column Design.Chapter 8: Introduction to Complex Distillation Methods.Chapter 7: Approximate Shortcut Methods for Multicomponent Distillation.Chapter 6: Exact Calculation Procedures for Multicomponent Distillation.Chapter 5: Introduction to Multicomponent Distillation.Chapter 4: Column Distillation: Internal Stage-by-Stage Balances.Chapter 3: Introduction to Column Distillation.Chapter 1: Introduction to Separation Process Engineering.Wankat Separation Process Engineering, Second Edition Chapter 6: Exact Calculation Procedures for Multicomponent Distillation by Phillip C.