User:Milton Beychok/Sandbox: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Milton Beychok
No edit summary
imported>Milton Beychok
No edit summary
Line 1: Line 1:
{{infobox book
{|align=right cellpadding=2 width=200 style="border:1px solid #000000;font-size:85%;background:#EEEEEE;"
|name=Distillation Design
|-
|image=
|width="65"|'''Author'''||Henry Z. Kister
|image_caption=
|-
|author=Henry Z. Kister
|'''Language'''||English
|language=English
|-
|subject= Chemical engineering: Distillation design
|'''Publisher'''||McGraw-Hill
|publisher=McGraw-Hill
|-
|release_date=1992 (1st Edition)
|'''Date'''||1992 (1st Edition)
|media_type=Hardback
|-
|pages=710
|'''Cover type'''||Hardback
|isbn= 0-07-034909-6}}
|-
'''''Distillation Design''''' is a book which provides complete coverage of the design of industrial [[distillation]] [[Distillation column|column]]s for the [[Oil refinery|petroleum refining]], [[Chemical plant|chemical]] and [[petrochemical]] plants, [[natural gas processing]], [[pharmaceutical]], food and [[Distilled beverage|alcohol distilling]] industries. It has been a classical [[chemical engineering]] textbook since it was first published in February of 1992.
|'''Pages'''||710
|-
|'''ISBN'''||0-07-034909-6
|}  
 
'''Distillation Design''' is a book which provides complete coverage of the design of industrial [[distillation]] columns for the [[Petroleum refining processes|petroleum refining]], [[chemical]] and [[petrochemical]] , [[natural gas processing]], [[pharmaceutical]] and [[alcohol]] distilling  industries. It has been a classical [[chemical engineering]] textbook since it was first published in February of 1992.


The subjects covered in the book include:
The subjects covered in the book include:


*''[[Vapor-liquid equilibrium ]](VLE)'': [[Vapor-liquid K values]], [[Relative volatility|relative volatilities]], ideal and non-ideal systems, phase diagrams, calculating bubble points and dewpoints
*''[[Vapor-liquid equilibrium]](VLE)'': [[Vapor-liquid K values]], [[Relative volatility|relative volatilities]], ideal and non-ideal systems, phase diagrams, calculating bubble points and dewpoints
*''Key [[fractional distillation]] concepts'': [[Theoretical plate|theoretical stage]]s, x-y diagrams, multicomponent distillation, column composition and temperature profiles
*''Key [[fractional distillation]] concepts'': [[Theoretical plate|theoretical stage]]s, x-y diagrams, multicomponent distillation, column composition and temperature profiles
*''[[Process design (chemical engineering)|Process design]] and [[Process optimization|optimization]]'': minimum [[reflux]] and minimum stages, optimum reflux, short-cut methods, feed entry location
*''[[Process design (chemical engineering)|Process design]] and [[Process optimization]]'': minimum [[reflux]] and minimum stages, optimum reflux, short-cut methods, feed entry location
*''Rigorous calculation methods'': Bubble point method, sum rates method, numerical methods ([[Newton-Raphson]] technique), inside out method, relaxation method, other methods
*''Rigorous calculation methods'': Bubble point method, sum rates method, numerical methods ([[Newton-Raphson]] technique), inside out method, relaxation method, other methods
*''[[Batch distillation]]'': Simple distillation, constant reflux, varying reflux, time and boilup requirments
*''[[Batch distillation]]'': Simple distillation, constant reflux, varying reflux, time and boilup requirments
*''Tray design and tray efficiency'': tray types, tray capacities, tray hydraulic parameters, tray sizing and determination of column diameter, point and tray efficiencies, tray efficiency prediction and scaleup
*''Tray design and tray efficiency'': distillation tray types, tray capacities, tray hydraulic parameters, tray sizing and determination of column diameter, point and tray efficiencies, tray efficiency prediction and scaleup
*''[[Packing]] design and packing efficiency'': packing types, packing hydraulics and capacities, determination of packing efficiency by transfer unit method and by [[HETP]] method, [[Packed bed|packed column]] sizing
*''Packing design and packing efficiency'': packing types, packing hydraulics and capacities, determination of packing efficiency by transfer unit method and by [[HETP]] method, [[packed column]] sizing


==External links==
==External links==
*[http://books.mcgraw-hill.com/search.php?keyword=Kister&;template=engarch&subjectarea=113 McGraw Hill website page]
*[http://books.mcgraw-hill.com/search.php?keyword=Kister&;template=engarch&subjectarea=113 McGraw Hill website page]

Revision as of 19:56, 6 March 2008

Author Henry Z. Kister
Language English
Publisher McGraw-Hill
Date 1992 (1st Edition)
Cover type Hardback
Pages 710
ISBN 0-07-034909-6

Distillation Design is a book which provides complete coverage of the design of industrial distillation columns for the petroleum refining, chemical and petrochemical , natural gas processing, pharmaceutical and alcohol distilling industries. It has been a classical chemical engineering textbook since it was first published in February of 1992.

The subjects covered in the book include:

  • Vapor-liquid equilibrium(VLE): Vapor-liquid K values, relative volatilities, ideal and non-ideal systems, phase diagrams, calculating bubble points and dewpoints
  • Key fractional distillation concepts: theoretical stages, x-y diagrams, multicomponent distillation, column composition and temperature profiles
  • Process design and Process optimization: minimum reflux and minimum stages, optimum reflux, short-cut methods, feed entry location
  • Rigorous calculation methods: Bubble point method, sum rates method, numerical methods (Newton-Raphson technique), inside out method, relaxation method, other methods
  • Batch distillation: Simple distillation, constant reflux, varying reflux, time and boilup requirments
  • Tray design and tray efficiency: distillation tray types, tray capacities, tray hydraulic parameters, tray sizing and determination of column diameter, point and tray efficiencies, tray efficiency prediction and scaleup
  • Packing design and packing efficiency: packing types, packing hydraulics and capacities, determination of packing efficiency by transfer unit method and by HETP method, packed column sizing

External links