Process Modeling, Simulation and Control for Chemical Engineers, 2nd Edition
by: William L. Luyben
•Publisher: McGraw-Hill Companies
•Number Of Pages: 725
•Publication Date: 1989-08-01
•Sales Rank: 1196458
•IN / ASIN: 0070391599
•EAN: 9780070391598
•Binding: Hardcover
•Manufacturer: McGraw-Hill Companies
•Studio: McGraw-Hill Companies
•Average Rating: 3
•Total Reviews: 1--------------------------------------------------------------------------------Book Description:The purpose of this book is to convey to undergraduate students an understanding of those areas of process control that all chemical engineers need to know. The presentation is concise, readable and restricted to only essential elements. The methods presented have been successfully applied in industry to solve real problems. ysis of closedloop dynamics in the time, Laplace, frequency and sample-data domains are covered. Designing simple regulatory control systems for multivariable processes is discussed. The practical aspects of process control are presented sizing control valves, tuning controllers, developing control structures and considering interaction between plant design and control. Practical simple identification methods are covered. GENERAL CONTENTS: posted by einsgoshin 440 days ago- INTRODUCTION
-- EXAMPLES OF THE ROLE OF PROCESS DYNAMICS AND CONTROL
-- HISTORICAL BACKGROUND
-- PERSPECTIVE
-- MOTIVATION FOR STUDYING PROCESS CONTROL
-- GENERAL CONCEPTS
-- LAWS AND LANGUAGES OF PROCESS CONTROL
· MATHEMATICAL MODELS OF CHEMICAL ENGINEERING SYSTEMS
- FUNDAMENTALS
-- FUNDAMENTAL LAWS
- EXAMPLES OF MATHEMATICAL MODELS OF CHEMICAL ENGINEERING SYSTEMS
-- SERIES OF ISOTHERMAL, CONSTANT-HOLDUP CSTRS
-- CSTRS WITH VARIABLE HOLDUPS
-- TWO HEATED TANKS
-- GAS-PHASE, PRESSURIZED CSTR
-- NONISOTHERMAL CSTR
-- SINGLE-COMPONENT VAPORIZER
-- MULTICOMPONENT FLASH DRUM
-- BATCH REACTOR
-- REACTOR WITH MASS TRANSFER
-- IDEAL BINARY DISTILLATION COLUMN
-- MULTICOMPONENT NONIDEAL DISTILLATION COLUMN
-- BATCH DISTILLATION WITH HOLDUP
-- PH SYSTEMS
· COMPUTER SIMULATION
- NUMERICAL METHODS
-- COMPUTER PROGRAMMING
-- ITERATIVE CONVERGENCE METHODS
-- NUMERICAL INTEGRATION OF ORDINARY DIFFERENTIAL EQUATIONS
- SIMULATION EXAMPLES
-- GRAVITY-FLOW TANK
-- THREE CSTRS IN SERIES
-- NONISOTHERMAL CSTR
-- BINARY DISTILLATION COLUMN
-- MULTICOMPONENT DISTILLATION COLUMN
-- VARIABLE PRESSURE DISTILLATION
-- BATCH REACTOR
-- TERNARY BATCH DISTILLATION WITH HOLDUP
· TIME-DOMAIN DYNAMICS AND CONTROL
- TIME-DOMAIN DYNAMICS
-- CLASSIFICATION AND DEFINITION
-- LINEARIZATION AND PERTURBATION VARIABLES
-- RESPONSES OF SIMPLE LINEAR SYSTEMS
-- STEADYSTATE TECHNIQUES
- CONVENTIONAL CONTROL SYSTEMS AND HARDWARE
-- CONTROL INSTRUMENTATION
-- PERFORMANCE OF FEEDBACK CONTROLLERS
-- CONTROLLER TUNING
- ADVANCED CONTROL SYSTEMS
-- RATIO CONTROL
-- CASCADE CONTROL
-- COMPUTED VARIABLE CONTROL
-- OVERRIDE CONTROL
-- NONLINEAR AND ADAPTIVE CONTROL
-- VALVE-POSITION CONTROL
-- FEEDFORWARD CONTROL CONCEPTS
-- CONTROL SYSTEM DESIGN CONCEPTS
-- DYNAMIC MATRIX CONTROL
· LAPLACE-DOMAIN DYNAMICS AND CONTROL
- LAPLACE-DOMAIN DYNAMICS
-- LAPLACE-TRANSFORMATION FUNDAMENTALS
-- LAPLACE TRANSFORMATION OF IMPORTANT FUNCTIONS
-- INVERSION OF LAPLACE TRANSFORMS
-- TRANSFER FUNCTIONS
-- EXAMPLES
-- PROPERTIES OF TRANSFER FUNCTIONS
-- TRANSFER FUNCTIONS FOR FEEDBACK CONTROLLERS
- LAPLACE-DOMAIN YSIS OF CONVENTIONAL FEEDBACK CONTROL SYSTEMS
-- OPENLOOP AND CLOSEDLOOP SYSTEMS
-- STABILITY
-- PERFORMANCE SPECIFICATIONS
-- ROOT LOCUS YSIS
- LAPLACE-DOMAIN YSIS OF ADVANCED CONTROL SYSTEMS
-- CASCADE CONTROL
-- FEEDFORWARD CONTROL
-- OPENLOOP UNSTABLE PROCESSES
-- PROCESSES WITH INVERSE RESPONSE
-- MODEL-BASED CONTROL
· FREQUENCY-DOMAIN DYNAMICS AND CONTROL
- FREQUENCY-DOMAIN DYNAMICS
-- DEFINITION
-- BASIC THEOREM
-- REPRESENTATION
-- FREQUENCY-DOMAIN SOLUTION TECHNIQUES
- FREQUENCY-DOMAIN YSIS OF CLOSEDLOOP SYSTEMS
-- NYQUIST STABILITY CRITERION
-- CLOSEDLOOP SPECIFICATIONS IN THE FREQUENCY DOMAIN
-- FREQUENCY RESPONSE OF FEEDBACK CONTROLLERS
- PROCESS IDENTIFICATION
-- PURPOSE
-- DIRECT METHODS
-- PULSE TESTING
-- STEP TESTING
-- ATV IDENTIFICATION
-- LEAST-SQUARES METHOD
-- STATE ESTIMATORS
-- RELATIONSHIPS AMONG TIME, LAPLACE, AND FREQUENCY DOMAINS
· MULTIVARIABLE PROCESSES
- MATRIX PROPERTIES AND STATE VARIABLES
-- MATRIX MATHEMATICS
-- MATRIX PROPERTIES
-- REPRESENTATION OF MULTIVARIABLE PROCESSES
-- OPENLOOP AND CLOSEDLOOP SYSTEMS
-- COMPUTER PROGRAMS FOR MATRIX CALCULATIONS
- YSIS OF MULTIVARIABLE SYSTEMS
-- STABILITY
-- RESILIENCY
-- INTERACTION
-- ROBUSTNESS
- DESIGN OF CONTROLLERS FOR MULTIVARIABLE PROCESSES
-- PROBLEM DEFINITION
-- SELECTION OF CONTROLLED VARIABLES
-- SELECTION OF MANIPULATED VARIABLES
-- ELIMINATION OF POOR PAIRINGS
-- BLT TUNING
-- LOAD REJECTION PERFORMANCE
-- MULTIVARIABLE CONTROLLERS
· SAMPLED-DATA CONTROL SYSTEMS
- SAMPLING AND Z TRANSFORMS
-- IMPULSE SAMPLER
-- BASIC SAMPLING THEOREM
-- Z TRANSFORMATION
-- PULSE TRANSFER FUNCTIONS
-- HOLD DEVICES
-- OPENLOOP AND CLOSEDLOOP SYSTEMS
-- DISCRETE APPROXIMATION OF CONTINUOUS TRANSFER FUNCTIONS
-- MODIFIED Z TRANSFORMS
- STABILITY YSIS OF SAMPLED-DATA SYSTEMS
-- STABILITY IN THE Z PLANE
-- ROOT LOCUS DESIGN METHODS
-- BILINEAR TRANSFORMATION
-- FREQUENCY-DOMAIN DESIGN TECHNIQUES
- DESIGN OF DIGITAL COMPENSATORS
-- PHYSICAL REALIZABILITY
-- FREQUENCY-DOMAIN EFFECTS
-- MINIMAL-PROTOTYPE DESIGN
-- SAMPLED-DATA CONTROL OF PROCESSES WITH DEADTIME
-- SAMPLED-DATA CONTROL OF OPENLOOP UNSTABLE PROCESSES本部分内容设定了隐藏,需要回复后才能看到
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