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200 10$aDistillation design and control using Aspen simulation /$fWilliam L. Luyben
205   $aSecond edition.
210  1$aHoboken, New Jersey :$cAlChE :$cWiley,$d2013.
210  4$dİ2013
215   $a1 online resource (742 p.)
300   $aDescription based upon print version of record.
311   $a1-118-41143-9 
320   $aIncludes bibliographical references and index.
327   $aCover; Title Page; Copyright; Dedication; Preface to the Second Edition; Preface to the First Edition; Chapter 1: Fundamentals of Vapor-Liquid-Equilibrium (VLE); 1.1 Vapor Pressure; 1.2 Binary VLE Phase Diagrams; 1.3 Physical Property Methods; 1.4 Relative Volatility; 1.5 Bubble Point Calculations; 1.6 Ternary Diagrams; 1.7 VLE Nonideality; 1.8 Residue Curves for Ternary Systems; 1.9 Distillation Boundaries; 1.10 Conclusions; Reference; Chapter 2: Analysis of Distillation Columns; 2.1 Design Degrees of Freedom; 2.2 Binary Mccabe-Thiele Method; 2.3 Approximate Multicomponent Methods
327   $a2.4 Conclusions Chapter 3: Setting Up a Steady-State Simulation; 3.1 Configuring a New Simulation; 3.2 Specifying Chemical Components and Physical Properties; 3.3 Specifying Stream Properties; 3.4 Specifying Parameters of Equipment; 3.5 Running the Simulation; 3.6 Using Design Spec/Vary Function; 3.7 Finding the Optimum Feed Tray and Minimum Conditions; 3.8 Column Sizing; 3.9 Conceptual Design; 3.10 Conclusions; Chapter 4: Distillation Economic Optimization; 4.1 Heuristic Optimization; 4.2 Economic Basis; 4.3 Results; 4.4 Operating Optimization; 4.5 Optimum Pressure for Vacuum Columns
327   $a4.6 Conclusions Chapter 5: More Complex Distillation Systems; 5.1 Extractive Distillation; 5.2 Ethanol Dehydration; 5.3 Pressure-Swing Azeotropic Distillation; 5.4 Heat-Integrated Columns; 5.5 Conclusions; Chapter 6: Steady-State Calculations for Control Structure Selection; 6.1 Control Structure Alternatives; 6.2 Feed Composition Sensitivity Analysis (ZSA); 6.3 Temperature Control Tray Selection; 6.4 Conclusions; Reference; Chapter 7: Converting From Steady-State to Dynamic Simulation; 7.1 Equipment Sizing; 7.2 Exporting to Aspen Dynamics; 7.3 Opening the Dynamic Simulation in Aspen Dynamics
327   $a7.4 Installing Basic Controllers 7.5 Installing Temperature and Composition Controllers; 7.6 Performance Evaluation; 7.7 Conclusions; Chapter 8: Control of More Complex Columns; 8.1 Extractive Distillation Process; 8.2 Columns with Partial Condensers; 8.3 Control of Heat-Integrated Distillation Columns; 8.4 Control of Azeotropic Columns/Decanter System; 8.5 Unusual Control Structure; 8.6 Conclusions; References; Chapter 9: Reactive Distillation; 9.1 Introduction; 9.2 Types of Reactive Distillation Systems; 9.3 Tame Process Basics; 9.4 Tame Reaction Kinetics and Vle
327   $a9.5 Plantwide Control Structure 9.6 Conclusions; References; Chapter 10: Control of Sidestream Columns; 10.1 Liquid Sidestream Column; 10.2 Vapor Sidestream Column; 10.3 Liquid Sidestream Column with Stripper; 10.4 Vapor Sidestream Column with Rectifier; 10.5 Sidestream Purge Column; 10.6 Conclusions; Chapter 11: Control of Petroleum Fractionators; 11.1 Petroleum Fractions; 11.2 Characterization Crude Oil; 11.3 Steady-State Design of Preflash Column; 11.4 Control of Preflash Column; 11.5 Steady-State Design of Pipestill; 11.6 Control of Pipestill; 11.7 Conclusions; References
327   $aChapter 12: Divided-Wall (Petlyuk) Columns
330   $aThe new edition of this book greatly updates and expands the previous edition. It boasts new chapters on the divided wall column and carbon dioxide capture from stack gas, revises the design and control of distillation systems, and explains the use of dynamic simulation to study safety issues in the event of operating failures. Using Aspen Plus to develop rigorous simulations of single distillation columns and sequences of columns, the book considers the economics of capital investment and energy costs to create an optimal system for separation methods in the chemical and petroleum industries.
606   $aDistillation apparatus$xDesign and construction
606   $aChemical process control$xSimulation methods
606   $aPetroleum$xRefining
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200 00$aCONNECT $eproceedings of CHI UX Indonesia 2015 (CHIuXiD 2015), the International HCI and UX Conference in Indonesia : 08-10 April 2015, Bandung, Indonesia /$fedited by Adi Tedjasaputra [and five others] ; in cooperation with ACM SIGCHI
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517 1 $aProceedings of the International Human Computer Interaction and UX Conference in Indonesia
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200 10$aSongs of Seoul $ean ethnography of voice and voicing in christian South Korea /$fNicholas Harkness
210  1$aBerkeley :$cUniversity of California Press,$d[2014]
210  4$dİ2014
215   $a1 online resource (320 p.)
300   $aDescription based upon print version of record.
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320   $aIncludes bibliographical references and index.
327   $tFrontmatter --$tContents --$tList of Illustrations --$tAcknowledgments --$tNote on Romanization --$tIntroduction --$tPart One. The Qualities of Voice --$tPart Two. The Sociality of Voice --$tNotes --$tReferences Cited --$tIndex
330   $aSongs of Seoul is an ethnographic study of voice in South Korea, where the performance of Western opera, art songs, and choral music is an overwhelmingly Evangelical Christian enterprise. Drawing on fieldwork in churches, concert halls, and schools of music, Harkness argues that the European-style classical voice has become a specifically Christian emblem of South Korean prosperity. By cultivating certain qualities of voice and suppressing others, Korean Christians strive to personally embody the social transformations promised by their religion: from superstition to enlightenment; from dictatorship to democracy; from sickness to health; from poverty to wealth; from dirtiness to cleanliness; from sadness to joy; from suffering to grace. Tackling the problematic of voice in anthropology and across a number of disciplines, Songs of Seoul develops an innovative semiotic approach to connecting the materiality of body and sound, the social life of speech and song, and the cultural voicing of perspective and personhood.
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