Distillation Design: Difference between revisions

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'''Distillation Design''' is a book that 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.
'''Distillation Design''' is a book that provides complete coverage of the design of industrial [[Continuous distillation|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 book's author, Henry Z. Kister, was presented with Chemical Engineering Magazine's 2002 Award for Personal Achievement in Chemical Engineering. The award, presented biennially since 1968, honors individuals with distinguished careers related to the practice of chemical engineering.
The book's author, Henry Z. Kister, was presented with Chemical Engineering Magazine's 2002 Award for Personal Achievement in Chemical Engineering. The award, presented biennially since 1968, honors individuals with distinguished careers related to the practice of chemical engineering.


== Subjects covered in the book ==
== Subjects covered in the book ==
 
*''[[Vapor-liquid equilibrium]](VLE)'': [[Relative volatility|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 [[Continuous distillation|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]] and [[Process optimization]]'': Minimum [[Reflux (distillation)|reflux]] and minimum [[equilibrium stage]]s, optimum reflux, short-cut methods, feed entry location
*''[[Process design (chemical engineering)|Process design]] and [[Process optimization]]'': minimum [[reflux]] and minimum [[equilibrium 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 requirements
*''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
*''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
*''Packing design and packing efficiency'': [[Packed bed|packing types]], packing hydraulics and capacities, determination of packing efficiency by transfer unit method and by [[HETP]] method, [[Packed bed|packed column]] sizing


More information is available on the Internet.<ref>[http://www.amazon.com/Distillation-Design-Henry-Z-Kister/dp/0070349096/ref=sr_11_1?ie=UTF8&qid=1204853544&sr=11-1 Distillation Design] (Amazon website page)</ref><ref>[http://catalogs.mhhe.com/mhhe/viewProductDetails.do?isbn=0070349096 McGraw-Hill Education website]</ref>
More information is available on the Internet.<ref>[http://www.amazon.com/Distillation-Design-Henry-Z-Kister/dp/0070349096/ref=sr_11_1?ie=UTF8&qid=1204853544&sr=11-1 Distillation Design] (Amazon website page)</ref><ref>[http://catalogs.mhhe.com/mhhe/viewProductDetails.do?isbn=0070349096 McGraw-Hill Education website]</ref>


== References ==
== References ==
 
{{reflist}}[[Category:Suggestion Bot Tag]]
{{reflist}}
 
 
[[Category:CZ Live]]

Latest revision as of 16:01, 7 August 2024

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This editable Main Article is under development and subject to a disclaimer.
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 that 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 book's author, Henry Z. Kister, was presented with Chemical Engineering Magazine's 2002 Award for Personal Achievement in Chemical Engineering. The award, presented biennially since 1968, honors individuals with distinguished careers related to the practice of chemical engineering.

Subjects covered in the book

More information is available on the Internet.[1][2]

References