Process Modeling, Simulation and Control for Chemical Engineers
[CENTER][B]Process Modeling, Simulation and Control for Chemical Engineers, 2nd Edition[/B]
[COLOR=#001f3e][img]http://www.egpet.net/vb/images/imported/2007/06/4113VTJFAAL-1.jpg[/img][/COLOR]
[COLOR=#001f3e] GENERAL *******S:[/COLOR]
[COLOR=#001f3e] - INTRODUCTION[/COLOR]
[COLOR=#001f3e] -- EXAMPLES OF THE ROLE OF PROCESS DYNAMICS AND CONTROL[/COLOR]
[COLOR=#001f3e] -- HISTORICAL BACKGROUND[/COLOR]
[COLOR=#001f3e] -- PERSPECTIVE[/COLOR]
[COLOR=#001f3e] -- MOTIVATION FOR STUDYING PROCESS CONTROL[/COLOR]
[COLOR=#001f3e] -- GENERAL CONCEPTS[/COLOR]
[COLOR=#001f3e] -- LAWS AND LANGUAGES OF PROCESS CONTROL[/COLOR]
[COLOR=#001f3e] · MATHEMATICAL MODELS OF CHEMICAL ENGINEERING SYSTEMS[/COLOR]
[COLOR=#001f3e] - FUNDAMENTALS[/COLOR]
[COLOR=#001f3e] -- FUNDAMENTAL LAWS[/COLOR]
[COLOR=#001f3e] - EXAMPLES OF MATHEMATICAL MODELS OF CHEMICAL ENGINEERING SYSTEMS[/COLOR]
[COLOR=#001f3e] -- SERIES OF ISOTHERMAL, CONSTANT-HOLDUP CSTRS[/COLOR]
[COLOR=#001f3e] -- CSTRS WITH VARIABLE HOLDUPS[/COLOR]
[COLOR=#001f3e] -- TWO HEATED TANKS[/COLOR]
[COLOR=#001f3e] -- GAS-PHASE, PRESSURIZED CSTR[/COLOR]
[COLOR=#001f3e] -- NONISOTHERMAL CSTR[/COLOR]
[COLOR=#001f3e] -- SINGLE-COMPONENT VAPORIZER[/COLOR]
[COLOR=#001f3e] -- MULTICOMPONENT FLASH DRUM[/COLOR]
[COLOR=#001f3e] -- BATCH REACTOR[/COLOR]
[COLOR=#001f3e] -- REACTOR WITH MASS TRANSFER[/COLOR]
[COLOR=#001f3e] -- IDEAL BINARY DISTILLATION COLUMN[/COLOR]
[COLOR=#001f3e] -- MULTICOMPONENT NONIDEAL DISTILLATION COLUMN[/COLOR]
[COLOR=#001f3e] -- BATCH DISTILLATION WITH HOLDUP[/COLOR]
[COLOR=#001f3e] -- PH SYSTEMS[/COLOR]
[COLOR=#001f3e] · COMPUTER SIMULATION[/COLOR]
[COLOR=#001f3e] - NUMERICAL METHODS[/COLOR]
[COLOR=#001f3e] -- COMPUTER PROGRAMMING[/COLOR]
[COLOR=#001f3e] -- ITERATIVE CONVERGENCE METHODS[/COLOR]
[COLOR=#001f3e] -- NUMERICAL INTEGRATION OF ORDINARY DIFFERENTIAL EQUATIONS[/COLOR]
[COLOR=#001f3e] - SIMULATION EXAMPLES[/COLOR]
[COLOR=#001f3e] -- GRAVITY-FLOW TANK[/COLOR]
[COLOR=#001f3e] -- THREE CSTRS IN SERIES[/COLOR]
[COLOR=#001f3e] -- NONISOTHERMAL CSTR[/COLOR]
[COLOR=#001f3e] -- BINARY DISTILLATION COLUMN[/COLOR]
[COLOR=#001f3e] -- MULTICOMPONENT DISTILLATION COLUMN[/COLOR]
[COLOR=#001f3e] -- VARIABLE PRESSURE DISTILLATION[/COLOR]
[COLOR=#001f3e] -- BATCH REACTOR[/COLOR]
[COLOR=#001f3e] -- TERNARY BATCH DISTILLATION WITH HOLDUP[/COLOR]
[COLOR=#001f3e] · TIME-DOMAIN DYNAMICS AND CONTROL[/COLOR]
[COLOR=#001f3e] - TIME-DOMAIN DYNAMICS[/COLOR]
[COLOR=#001f3e] -- CLASSIFICATION AND DEFINITION[/COLOR]
[COLOR=#001f3e] -- LINEARIZATION AND PERTURBATION VARIABLES[/COLOR]
[COLOR=#001f3e] -- RESPONSES OF SIMPLE LINEAR SYSTEMS[/COLOR]
[COLOR=#001f3e] -- STEADYSTATE TECHNIQUES[/COLOR]
[COLOR=#001f3e] - CONVENTIONAL CONTROL SYSTEMS AND HARDWARE[/COLOR]
[COLOR=#001f3e] -- CONTROL INSTRUMENTATION[/COLOR]
[COLOR=#001f3e] -- PERFORMANCE OF FEEDBACK CONTROLLERS[/COLOR]
[COLOR=#001f3e] -- CONTROLLER TUNING[/COLOR]
[COLOR=#001f3e] - ADVANCED CONTROL SYSTEMS[/COLOR]
[COLOR=#001f3e] -- RATIO CONTROL[/COLOR]
[COLOR=#001f3e] -- CASCADE CONTROL[/COLOR]
[COLOR=#001f3e] -- COMPUTED VARIABLE CONTROL[/COLOR]
[COLOR=#001f3e] -- OVERRIDE CONTROL[/COLOR]
[COLOR=#001f3e] -- NONLINEAR AND ADAPTIVE CONTROL[/COLOR]
[COLOR=#001f3e] -- VALVE-POSITION CONTROL[/COLOR]
[COLOR=#001f3e] -- FEEDFORWARD CONTROL CONCEPTS[/COLOR]
[COLOR=#001f3e] -- CONTROL SYSTEM DESIGN CONCEPTS[/COLOR]
[COLOR=#001f3e] -- DYNAMIC MATRIX CONTROL[/COLOR]
[COLOR=#001f3e] · LAPLACE-DOMAIN DYNAMICS AND CONTROL[/COLOR]
[COLOR=#001f3e] - LAPLACE-DOMAIN DYNAMICS[/COLOR]
[COLOR=#001f3e] -- LAPLACE-TRANSFORMATION FUNDAMENTALS[/COLOR]
[COLOR=#001f3e] -- LAPLACE TRANSFORMATION OF IMPORTANT FUNCTIONS[/COLOR]
[COLOR=#001f3e] -- INVERSION OF LAPLACE TRANSFORMS[/COLOR]
[COLOR=#001f3e] -- TRANSFER FUNCTIONS[/COLOR]
[COLOR=#001f3e] -- EXAMPLES[/COLOR]
[COLOR=#001f3e] -- PROPERTIES OF TRANSFER FUNCTIONS[/COLOR]
[COLOR=#001f3e] -- TRANSFER FUNCTIONS FOR FEEDBACK CONTROLLERS[/COLOR]
[COLOR=#001f3e] - LAPLACE-DOMAIN ANALYSIS OF CONVENTIONAL FEEDBACK CONTROL SYSTEMS[/COLOR]
[COLOR=#001f3e] -- OPENLOOP AND CLOSEDLOOP SYSTEMS[/COLOR]
[COLOR=#001f3e] -- STABILITY[/COLOR]
[COLOR=#001f3e] -- PERFORMANCE SPECIFICATIONS[/COLOR]
[COLOR=#001f3e] -- ROOT LOCUS ANALYSIS[/COLOR]
[COLOR=#001f3e] - LAPLACE-DOMAIN ANALYSIS OF ADVANCED CONTROL SYSTEMS[/COLOR]
[COLOR=#001f3e] -- CASCADE CONTROL[/COLOR]
[COLOR=#001f3e] -- FEEDFORWARD CONTROL[/COLOR]
[COLOR=#001f3e] -- OPENLOOP UNSTABLE PROCESSES[/COLOR]
[COLOR=#001f3e] -- PROCESSES WITH INVERSE RESPONSE[/COLOR]
[COLOR=#001f3e] -- MODEL-BASED CONTROL[/COLOR]
[COLOR=#001f3e] · FREQUENCY-DOMAIN DYNAMICS AND CONTROL[/COLOR]
[COLOR=#001f3e] - FREQUENCY-DOMAIN DYNAMICS[/COLOR]
[COLOR=#001f3e] -- DEFINITION[/COLOR]
[COLOR=#001f3e] -- BASIC THEOREM[/COLOR]
[COLOR=#001f3e] -- REPRESENTATION[/COLOR]
[COLOR=#001f3e] -- FREQUENCY-DOMAIN SOLUTION TECHNIQUES[/COLOR]
[COLOR=#001f3e] - FREQUENCY-DOMAIN ANALYSIS OF CLOSEDLOOP SYSTEMS[/COLOR]
[COLOR=#001f3e] -- NYQUIST STABILITY CRITERION[/COLOR]
[COLOR=#001f3e] -- CLOSEDLOOP SPECIFICATIONS IN THE FREQUENCY DOMAIN[/COLOR]
[COLOR=#001f3e] -- FREQUENCY RESPONSE OF FEEDBACK CONTROLLERS[/COLOR]
[COLOR=#001f3e] - PROCESS IDENTIFICATION[/COLOR]
[COLOR=#001f3e] -- PURPOSE[/COLOR]
[COLOR=#001f3e] -- DIRECT METHODS[/COLOR]
[COLOR=#001f3e] -- PULSE TESTING[/COLOR]
[COLOR=#001f3e] -- STEP TESTING[/COLOR]
[COLOR=#001f3e] -- ATV IDENTIFICATION[/COLOR]
[COLOR=#001f3e] -- LEAST-SQUARES METHOD[/COLOR]
[COLOR=#001f3e] -- STATE ESTIMATORS[/COLOR]
[COLOR=#001f3e] -- RELATIONSHIPS AMONG TIME, LAPLACE, AND FREQUENCY DOMAINS[/COLOR]
[COLOR=#001f3e] · MULTIVARIABLE PROCESSES[/COLOR]
[COLOR=#001f3e] - MATRIX PROPERTIES AND STATE VARIABLES[/COLOR]
[COLOR=#001f3e] -- MATRIX MATHEMATICS[/COLOR]
[COLOR=#001f3e] -- MATRIX PROPERTIES[/COLOR]
[COLOR=#001f3e] -- REPRESENTATION OF MULTIVARIABLE PROCESSES[/COLOR]
[COLOR=#001f3e] -- OPENLOOP AND CLOSEDLOOP SYSTEMS[/COLOR]
[COLOR=#001f3e] -- COMPUTER PROGRAMS FOR MATRIX CALCULATIONS[/COLOR]
[COLOR=#001f3e] - ANALYSIS OF MULTIVARIABLE SYSTEMS[/COLOR]
[COLOR=#001f3e] -- STABILITY[/COLOR]
[COLOR=#001f3e] -- RESILIENCY[/COLOR]
[COLOR=#001f3e] -- INTERACTION[/COLOR]
[COLOR=#001f3e] -- ROBUSTNESS[/COLOR]
[COLOR=#001f3e] - DESIGN OF CONTROLLERS FOR MULTIVARIABLE PROCESSES[/COLOR]
[COLOR=#001f3e] -- PROBLEM DEFINITION[/COLOR]
[COLOR=#001f3e] -- SELECTION OF CONTROLLED VARIABLES[/COLOR]
[COLOR=#001f3e] -- SELECTION OF MANIPULATED VARIABLES[/COLOR]
[COLOR=#001f3e] -- ELIMINATION OF POOR PAIRINGS[/COLOR]
[COLOR=#001f3e] -- BLT TUNING[/COLOR]
[COLOR=#001f3e] -- LOAD REJECTION PERFORMANCE[/COLOR]
[COLOR=#001f3e] -- MULTIVARIABLE CONTROLLERS[/COLOR]
[COLOR=#001f3e] · SAMPLED-DATA CONTROL SYSTEMS[/COLOR]
[COLOR=#001f3e] - SAMPLING AND Z TRANSFORMS[/COLOR]
[COLOR=#001f3e] -- IMPULSE SAMPLER[/COLOR]
[COLOR=#001f3e] -- BASIC SAMPLING THEOREM[/COLOR]
[COLOR=#001f3e] -- Z TRANSFORMATION[/COLOR]
[COLOR=#001f3e] -- PULSE TRANSFER FUNCTIONS[/COLOR]
[COLOR=#001f3e] -- HOLD DEVICES[/COLOR]
[COLOR=#001f3e] -- OPENLOOP AND CLOSEDLOOP SYSTEMS[/COLOR]
[COLOR=#001f3e] -- DISCRETE APPROXIMATION OF CONTINUOUS TRANSFER FUNCTIONS[/COLOR]
[COLOR=#001f3e] -- MODIFIED Z TRANSFORMS[/COLOR]
[COLOR=#001f3e] - STABILITY ANALYSIS OF SAMPLED-DATA SYSTEMS[/COLOR]
[COLOR=#001f3e] -- STABILITY IN THE Z PLANE[/COLOR]
[COLOR=#001f3e] -- ROOT LOCUS DESIGN METHODS[/COLOR]
[COLOR=#001f3e] -- BILINEAR TRANSFORMATION[/COLOR]
[COLOR=#001f3e] -- FREQUENCY-DOMAIN DESIGN TECHNIQUES[/COLOR]
[COLOR=#001f3e] - DESIGN OF DIGITAL COMPENSATORS[/COLOR]
[COLOR=#001f3e] -- PHYSICAL REALIZABILITY[/COLOR]
[COLOR=#001f3e] -- FREQUENCY-DOMAIN EFFECTS[/COLOR]
[COLOR=#001f3e] -- MINIMAL-PROTOTYPE DESIGN[/COLOR]
[COLOR=#001f3e] -- SAMPLED-DATA CONTROL OF PROCESSES WITH DEADTIME[/COLOR]
[COLOR=#001f3e] -- SAMPLED-DATA CONTROL OF OPENLOOP UNSTABLE PROCESSES[/COLOR]
[COLOR=#001f3e] [COLOR=DarkOrange][U][B] Download :[/B][/U][/COLOR][/COLOR]
[COLOR=#001f3e] [URL="http://www.4shared.com/file/3317693/7065d05c/process_modeling_simulation_and_control_for_chemical_engineers"]http://www.4shared.com/file/3317693/... al_engineers[/URL][/COLOR][I]Ç[/I][/CENTER]
