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200 1 $aDeformation of soils and displacements of structures$eX ECSMFE$eproceedings of the 10. european conference on soil mechanics and foundation engineering$eFlorence, 26-30 May 1991$d= Déformation du sol et déplacement des structures$eX CEMSTF$ecomptes rendus du 10e conference européenne de mécanique des sols et des travaux de fondations$eFlorence, 26-30 mai 1991$feditor Associazione Geotecnica Italiana
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463 \1$1001990009895900403321$12001 $a<<1.: >>Experimental determination of soil properties (stress-strain-time), modelling stress-strain-time behaviour of natural soils, displacements and soil-structure interaction : shallow and deep foundations
463 \1$1001990009896330403321$12001 $a<<3.: >>General reports
463 \1$1001990009896420403321$12001 $a<<4.: >>Opening session, general report, invited lectures, discussions, closing session, italian contributions, ISSMFE vice president for Europe : report 1991, Miscellaneous
510 1 $aDéformation du sol et déplacement des structures$ecomptes rendus du 10e conference européenne de mécanique des sols et des travaux de fondations$eFlorence, 26-30 mai 1991
610 0 $aMeccanica dei terreni$aConvegni
710 12$aEuropean conference on soil mechanics and foundation engineering$d10.$f<1991 ;$eFirenze>$0523677
712 02$aAssociazione geotecnica italiana
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200 10$aModeling, analysis, and optimization of process and energy systems /$fF. Carl Knopf
205   $a1st ed.
210   $aHoboken, N.J. $cWiley$d2012
215   $a1 online resource (486 p.)
300   $aDescription based upon print version of record.
311 08$a9780470624210 
311 08$a0470624213 
320   $aIncludes bibliographical references and index.
327   $aModeling, Analysis and Optimization of Process and Energy Systems; Contents; Preface; Conversion Factors; List of Symbols; Chapter 1: Introduction to Energy Usage, Cost, and Efficiency; 1.1 ENERGY UTILIZATION IN THE UNITED STATES; 1.2 THE COST OF ENERGY; 1.3 ENERGY EFFICIENCY; 1.4 THE COST OF SELF-GENERATED VERSUS PURCHASED ELECTRICITY; 1.5 THE COST OF FUEL AND FUEL HEATING VALUE; 1.6 TEXT ORGANIZATION; 1.7 GETTING STARTED; 1.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 2: Engineering Economics with VBA Procedures; 2.1 INTRODUCTION TO ENGINEERING ECONOMICS
327   $a2.2 THE TIME VALUE OF MONEY: PRESENT VALUE (PV) AND FUTURE VALUE (FV)2.3 ANNUITIES; 2.4 COMPARING PROCESS ALTERNATIVES; 2.4.1 Present Value; 2.4.2 Rate of Return (ROR); 2.4.3 Equivalent Annual Cost/Annual Capital Recovery Factor (CRF); 2.5 PLANT DESIGN ECONOMICS; 2.6 FORMULATING ECONOMICSBASED ENERGY OPTIMIZATION PROBLEMS; 2.7 ECONOMIC ANALYSIS WITH UNCERTAINTY: MONTE CARLO SIMULATION; 2.8 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 3: Computer-Aided Solutions of Process Material Balances: The Sequential Modular Solution Approach; 3.1 ELEMENTARY MATERIAL BALANCE MODULES; 3.1.1 Mixer
327   $a3.1.2 Separator 3.1.3 Splitter; 3.1.4 Reactors; 3.2 SEQUENTIAL MODULAR APPROACH: MATERIAL BALANCES WITH RECYCLE; 3.3 UNDERSTANDING TEAR STREAM ITERATION METHODS; 3.3.1 Single-Variable Successive Substitution Method; 3.3.2 Multidimensional Successive Substitution Method; 3.3.3 Single-Variable Wegstein Method; 3.3.4 Multidimensional Wegstein Method; 3.4 MATERIAL BALANCE PROBLEMS WITH ALTERNATIVE SPECIFICATIONS; 3.5 SINGLE-VARIABLE OPTIMIZATION PROBLEMS; 3.5.1 Forming the Objective Function for Single-Variable Constrained Material Balance Problems
327   $a3.5.2 Bounding Step or Bounding Phase: Swann's Equation 3.5.3 Interval Refinement Phase: Interval Halving; 3.6 MATERIAL BALANCE PROBLEMS WITH LOCAL NONLINEAR SPECIFICATIONS; 3.7 CLOSING COMMENTS; REFERENCES; PROBLEMS; Chapter 4: Computer-Aided Solutions of Process Material Balances: The Simultaneous Solution Approach; 4.1 SOLUTION OF LINEAR EQUATION SETS: THE SIMULTANEOUS APPROACH; 4.1.1 The Gauss-Jordan Matrix Elimination Method; 4.1.2 Gauss-Jordan Coding Strategy for Linear Equation Sets; 4.1.3 Linear Material Balance Problems: Natural Specifications
327   $a4.1.4 Linear Material Balance Problems: Alternative Specifications 4.2 SOLUTION OF NONLINEAR EQUATION SETS: THE NEWTON-RAPHSON METHOD; 4.2.1 Equation Linearization via Taylor's Series Expansion; 4.2.2 Nonlinear Equation Set Solution via the Newton-Raphson Method; 4.2.3 Newton-Raphson Coding Strategy for Nonlinear Equation Sets; 4.2.4 Nonlinear Material Balance Problems: The Simultaneous Approach; REFERENCES; PROBLEMS; Chapter 5: Process Energy Balances; 5.1 INTRODUCTION; 5.2 SEPARATOR: EQUILIBRIUM FLASH; 5.2.1 Equilibrium Flash with Recycle: Sequential Modular Approach
327   $a5.3 EQUILIBRIUM FLASH WITH RECYCLE: SIMULTANEOUS APPROACH
330   $aEnergy costs impact the profitability of virtually all industrial processes. Stressing how plants use power, and how that power is actually generated, this book provides a clear and simple way to understand the energy usage in various processes, as well as methods for optimizing these processes using practical hands-on simulations and a unique approach that details solved problems utilizing actual plant data. Invaluable information offers a complete energy-saving approach essential for both the chemical and mechanical engineering curricula, as well as for practicing engineers.
606   $aFactories$xEnergy conservation
606   $aManufacturing industries$xEnergy conservation
606   $aIndustrial efficiency$xSimulation methods
606   $aManufacturing processes$xEvaluation
606   $aElectric power-plants$xEfficiency
615  0$aFactories$xEnergy conservation.
615  0$aManufacturing industries$xEnergy conservation.
615  0$aIndustrial efficiency$xSimulation methods.
615  0$aManufacturing processes$xEvaluation.
615  0$aElectric power-plants$xEfficiency.
676   $a658.2/6
686   $aTEC009010$2bisacsh
700   $aKnopf$b F. Carl$f1952-$01602986
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906   $aBOOK
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