Modeling and Optimization of a Semi-Interpenetrating Polymer Network Process

Abstract III AbstractIII Abstract The integration of modeling, simulation and optimization provides powerful tools for supporting advanced decision making in the competitive market. However, when applying the tools to polymerization processing, the challenging task is to accommodate the predictability of the mathematical model and the capability of model-based optimization due to its inherent complexities. In this thesis, novel strategies of modeling and optimization are developed and applied to a complex polymerization system, Semi-Interpenetrating Polymer Network (SIPN) process. By providing a comprehensive study on SIPNs, we show the great potential of advanced modeling and optimization in the polymer industry. New mathematical modeling strategies are first presented in this work. In the SIPN process, improving the productivity while preserving the quality of final products are usually contradictory with each other because of a slow seeded polymerization mechanism. The presence and interaction between two polymers imposes complexity in the model. To simulate the complex interpenetration and networking process, the model needs to consider several key features, such as a particle growth mechanism, intra-particle heterogeneity and polymerization kinetics. Hence, the first highlight of the work is a multi-stage modeling framework which decouples the modeling complexity: a generalized reaction-diffusion model to describe the particle growth and the intra-particle dynamics; and a new multipopulation-balance representation to integrate simultaneous crosslinking, grafting and degradation reactions into the kinetic model. The last component enables the prediction of gel content and molecular weight development simultaneously up to full conversion. Advanced computational tools are developed to tackle the problem of computation. Acquisition of reliable parameters is the key to predict the process performance over a broad range of operation. However, we face the problem of large variation of polymerization parameters in the literature and limitations in obtaining analytical measurements for polymer composites. A hybrid approach is presented to reduce model distortion by selecting the most prominent parameters from a large parameter set. Parameters are ranked through successive orthogonalization of the sensitivity matrix, and then the selection is iteratively refined through statistical inference from simultaneous parameter estimation. Validated models obtained are therefore usable for process optimization. New operation policies are explored

[1]  Chih-Jen Lin,et al.  Newton's Method for Large Bound-Constrained Optimization Problems , 1999, SIAM J. Optim..

[2]  I. M. Kolthoff,et al.  Mechanism of emulsion polymerizations. IV. Kinetics of polymerization of styrene in water and detergent solutions , 1950 .

[3]  T. Brubaker,et al.  Nonlinear Parameter Estimation , 1979 .

[4]  Clifford H. Thurber,et al.  Parameter estimation and inverse problems , 2005 .

[5]  Thomas J. Santner,et al.  The Design and Analysis of Computer Experiments , 2003, Springer Series in Statistics.

[6]  John W. Vanderhoff,et al.  Mechanism of emulsion polymerization , 2007 .

[7]  R. Chylla,et al.  Temperature control of semibatch polymerization reactors , 1993 .

[8]  A. Buchelli,et al.  Physical Properties, Reactor Modeling, and Polymerization Kinetics in the Low-Density Polyethylene Tubular Reactor Process1 , 2002 .

[9]  M. Huskić,et al.  Characterization of crosslinked ethylene-vinylacetate copolymers , 1993 .

[10]  Timothy W. Simpson,et al.  Metamodels for Computer-based Engineering Design: Survey and recommendations , 2001, Engineering with Computers.

[11]  Jacqueline I. Kroschwitz,et al.  Encyclopedia of Polymer Science and Technology , 1970 .

[12]  A. Shyichuk,et al.  A way to gel-point determination , 1996 .

[13]  D. Simon Optimal State Estimation: Kalman, H Infinity, and Nonlinear Approaches , 2006 .

[14]  D. H. Napper,et al.  Kinetics of emulsion polymerization of methyl methacrylate , 1984 .

[15]  Victor M. Zavala,et al.  Computational strategies for the optimal operation of large-scale chemical processes , 2008 .

[16]  L. Biegler,et al.  Simultaneous solution and optimization strategies for parameter estimation of differential-algebraic equation systems , 1991 .

[17]  Shiping Zhu,et al.  Molecular weight distribution in free-radical polymer modification with cross-linking : effect of chain-length-dependent termination , 1996 .

[18]  Neal R. Amundson,et al.  Analysis of Polymerization Kinetics and the Use of a Digital Computer , 1961 .

[19]  E. Camacho,et al.  Nonlinear Model Predictive Control: An Introductory Review , 2007 .

[20]  Jerry Eriksson,et al.  Optimization and Regularization of Nonlinear Least Squares Problems , 2007 .

[21]  Michael F. Malone,et al.  Modeling of reactive distillation systems , 1987 .

[22]  I. Grossmann,et al.  An algorithm for the use of surrogate models in modular flowsheet optimization , 2008 .

[23]  Alexander Penlidis,et al.  Mathematical Modeling of Multicomponent Chain-Growth Polymerizations in Batch, Semibatch, and Continuous Reactors: A Review , 1997 .

[24]  B. M. E. Van der Hoff,et al.  The gel effect at low conversion in emulsion polymerization , 1958 .

[25]  Michael Wulkow,et al.  Computer Aided Modeling of Polymer Reaction Engineering—The Status of Predici, I‐Simulation , 2008 .

[26]  H. Künsch,et al.  Practical identifiability analysis of large environmental simulation models , 2001 .

[27]  Bjarne A. Foss,et al.  Parameter ranking by orthogonalization - Applied to nonlinear mechanistic models , 2008, Autom..

[28]  J. Peter,et al.  Comparison of surrogate models for turbomachinery design , 2008 .

[29]  B. Likozar,et al.  Simulation of chemical kinetics of elastomer crosslinking by organic peroxides , 2009 .

[30]  W. H. Ray,et al.  Discrete weighted residual methods applied to polymerization reactions , 1991 .

[31]  Archie E. Hamielec,et al.  High Conversion Diffusion-Controlled Polymerization , 1979 .

[32]  Krzysztof Matyjaszewski,et al.  Macromolecular engineering : precise synthesis, materials properties, applications , 2007 .

[33]  Wenzhen Huang,et al.  Process capability surrogate model-based tolerance synthesis for multi-station manufacturing systems , 2009 .

[34]  Hidetaka Tobita,et al.  Molecular weight distribution in random crosslinking of polymer chains , 1995 .

[35]  Timothy F. L. McKenna,et al.  Single particle modelling for olefin polymerization on supported catalysts: A review and proposals for future developments , 2001 .

[36]  L. Biegler An overview of simultaneous strategies for dynamic optimization , 2007 .

[37]  Anil K. Bhowmick,et al.  Studies on crosslinking of EPDM-PE blends by thermoanalytical techniques , 1991 .

[38]  Inanc Birol,et al.  Calculation of Molecular Weight Distributions in Non‐Linear Free‐Radical Polymerization Using the Numerical Fractionation Technique , 2002 .

[39]  Zheng-Hong Luo,et al.  Steady-State and Dynamic Modeling of the Basell Multireactor Olefin Polymerization Process , 2011 .

[40]  O. Paladino,et al.  Fitting of experimental data to implicit models using a constrained variation algorithm , 1989 .

[41]  P. G. de Gennes,et al.  Kinetics of diffusion‐controlled processes in dense polymer systems. I. Nonentangled regimes , 1982 .

[42]  S. Balke,et al.  Reactive Extrusion of Polypropylene/Polyethylene Blends: Kinetic Model Development , 1997 .

[43]  Søren Nymand Lophaven,et al.  Aspects of the Matlab toolbox DACE , 2002 .

[44]  Katsukiyo Ito,et al.  Estimation of Molecular Weight in Terms of the Gel Effect in Radical Polymerization , 1980 .

[45]  Kim B. McAuley,et al.  Selection of Parameters for Updating in On-line Models , 2001 .

[46]  Babatunde A. Ogunnaike,et al.  Modeling and control of a batch condensation polymerization reactor , 1995, Proceedings of 1995 American Control Conference - ACC'95.

[47]  J. Hammersley MONTE CARLO METHODS FOR SOLVING MULTIVARIABLE PROBLEMS , 1960 .

[48]  Alexander Penlidis,et al.  An Updated Review on Suspension Polymerization , 1997 .

[49]  Navid Mostoufi,et al.  Modeling of fluidized bed reactor of ethylene polymerization , 2004 .

[50]  D. Klempner,et al.  Advances in interpenetrating polymer networks , 1981 .

[51]  Thierry Meyer,et al.  Polymer Reaction Engineering, an Integrated Approach , 2004 .

[52]  Peter Deuflhard,et al.  Computational treatment of polyreaction kinetics by orthogonal polynomials of a discrete variable , 1989, IMPACT Comput. Sci. Eng..

[53]  Benjamin J. McCoy,et al.  Discrete and continuous models for polymerization and depolymerization , 2001 .

[54]  Osamu Saito,et al.  Effects of High Energy Radiation on Polymers II. End-linking and Gel Fraction , 1958 .

[55]  David S. Soong,et al.  A computer model for the gel effect in free-radical polymerization , 1983 .

[56]  Hidetaka Tobita Crosslinking Kinetics in Free-Radical Copolymerization , 1990 .

[57]  Adriana Brandolin,et al.  An improved kinetic model for the peroxide initiated modification of polyethylene , 1999 .

[58]  D. Ramkrishna,et al.  On the solution of population balance equations by discretization—II. A moving pivot technique , 1996 .

[59]  Juergen Hahn,et al.  Parameter set selection for estimation of nonlinear dynamic systems , 2007 .

[60]  Archie E. Hamielec,et al.  Gel-Effect in Emulsion Polymerization of Vinyl Monomers , 1976 .

[61]  Søren Nymand Lophaven,et al.  DACE - A Matlab Kriging Toolbox , 2002 .

[62]  T. M. Orlova,et al.  Statistical approach to the molecular weight distribution of condensation polymers , 1979 .

[63]  John K. Horne,et al.  Sensitivity analysis and parameter selection for detecting aggregations in acoustic data , 2006 .

[64]  Boxin Tang Orthogonal Array-Based Latin Hypercubes , 1993 .

[65]  George D. Verros,et al.  Development of a unified framework for calculating molecular weight distribution in diffusion controlled free radical bulk homo-polymerization , 2005 .

[66]  João B. P. Soares,et al.  Deconvolution of chain-length distributions of linear polymers made by multiple-site-type catalysts , 1995 .

[67]  Michael Wulkow,et al.  Computation of molecular weight distributions for free radical polymerization systems , 1991 .

[68]  G.C. Verghese,et al.  Subset selection in identification, and application to speed and parameter estimation for induction machines , 1995, Proceedings of International Conference on Control Applications.

[69]  Hidetaka Tobita,et al.  Kinetics of long-chain branching in emulsion polymerization: 2. Vinyl acetate polymerization , 1994 .

[70]  Paul J. Flory,et al.  Molecular Size Distribution in Linear Condensation Polymers1 , 1936 .

[71]  D. H. Napper,et al.  Chain-length-dependent termination rate processes in free-radical polymerizations. 1. Theory , 1992 .

[72]  Robert G. Gilbert,et al.  Effects of diffusion control on the propagation and transfer rate coefficients in free radical polymerization , 1992 .

[73]  L. Biegler,et al.  Simultaneous strategies for data reconciliation and gross error detection of nonlinear systems , 1991 .

[74]  Tôsaku Kimura,et al.  Molecular Weight Distribution of Irradiated Polymers , 1962 .

[75]  George D. Verros,et al.  Calculation of molecular weight distribution in non-linear free radical copolymerization , 2003 .

[76]  José M. Asua,et al.  Modeling of Seeded Semibatch Emulsion Polymerization of n-BA , 2001 .

[77]  Lorenz T. Biegler,et al.  Optimal sensitivity based on IPOPT , 2012, Math. Program. Comput..

[78]  A. Secchi,et al.  Simulation of styrene polymerization reactors: kinetic and thermodynamic modeling , 2008 .

[79]  M. Zako,et al.  Structural optimization using Kriging approximation , 2003 .

[80]  Jack P. C. Kleijnen,et al.  Kriging Metamodeling in Simulation: A Review , 2007, Eur. J. Oper. Res..

[81]  Günter Wozny,et al.  Sequential Parameter Estimation for Large-Scale Systems with Multiple Data Sets. 1. Computational Framework , 2003 .

[82]  Lorenz T. Biegler,et al.  Simultaneous dynamic optimization strategies: Recent advances and challenges , 2006, Comput. Chem. Eng..

[83]  Kurt C. Frisch,et al.  Morphology of a polyurethane-polyacrylate interpenetrating polymer network , 1974 .

[84]  Linda J. Broadbelt,et al.  Mechanistic Modeling of Polymer Degradation: A Comprehensive Study of Polystyrene , 2002 .

[85]  Edgar Franklin Davis,et al.  Modeling and optimization of process engineering problems containing black-box systems and noise. , 2011 .

[86]  Jun Nie,et al.  The significance of chain length dependent termination in cross-linking polymerizations , 2001 .

[87]  V. Athawale,et al.  New interpenetrating polymer networks based on uralkyd/poly(glycidyl methacrylate) , 2002 .

[88]  Chau-Chyun Chen An Industry Perspective on Polymer Process Modeling , 2002 .

[89]  B. Kichatov,et al.  Particle Size Distribution of the Product of Suspension Polymerization , 2003 .

[90]  Zhiqiang Hu,et al.  Surrogate Models for Shape Optimization of Underwater Glider , 2009, 2009 International Conference on Computer Modeling and Simulation.

[91]  Costas Kiparissides,et al.  Challenges in particulate polymerization reactor modeling and optimization: A population balance perspective , 2006 .

[92]  Ricardo A. F. Machado,et al.  Secondary particle formation in seeded suspension polymerization , 2009 .

[93]  P. L. Mills,et al.  Determination of polymer chain length distributions by numerical inversion of z-transforms , 1986 .

[94]  Deoki N. Saraf,et al.  Free radical polymerizations associated with the trommsdorff effect under semibatch reactor conditions. I: Modeling , 1995 .

[95]  Wei Jiang,et al.  Monte Carlo Simulation of the Grafting of Maleic Anhydride onto Polypropylene at Higher Temperature , 2003 .

[96]  John F. MacGregor,et al.  ASQC Chemical Division Technical Conference 1971 Prize Winning Paper Some Problems Associated with the Analysis of Multiresponse Data , 1973 .

[97]  Silvia Curteanu,et al.  Modeling and simulation of free radical polymerization of styrene under semibatch reactor conditions , 2003 .

[98]  Victor M. Zavala,et al.  Interior-point decomposition approaches for parallel solution of large-scale nonlinear parameter estimation problems , 2008 .

[99]  Harry L. Frisch Interpenetrating polymer networks , 1985 .

[100]  Archie E. Hamielec,et al.  Kinetics of free radical modification of polyolefins in extruders : chain scission, crosslinking and grafting , 1991 .

[101]  Zengrong Zhang,et al.  Use of FT‐IR Spectrometry for On‐Line Detection in Temperature Rising Elution Fractionation , 2009 .

[102]  C. Kiparissides Polymerization reactor modeling: A review of recent developments and future directions , 1996 .

[103]  Massimo Morbidelli,et al.  Nonlinear Chain-Length Distributions in Free-Radical Polymerization , 1997 .

[104]  Giridhar Madras,et al.  Thermal Degradation of Poly(vinyl acetate) and Poly(epsilon-caprolactone) and Their Mixtures in Solution , 2004 .

[105]  Anthony J. Kearsley,et al.  Estimating growth and mortality in stage-structured populations , 1997 .

[106]  Athanasios Migdalas,et al.  Nonlinear optimization and parallel computing , 2003, Parallel Comput..

[107]  K. Nagasubramanian,et al.  Continuous reactors in free radical polymerization with branching—I theoretical aspects and preliminary considerations , 1970 .

[108]  L. E. Scriven,et al.  Kinetic Gelation Modeling: Kinetics of Cross-Linking Polymerization , 2003 .

[109]  Yoram Cohen,et al.  Kinetic modeling of free-radical polymerization: a conservational polymerization and molecular weight distribution model , 1990 .

[110]  Stephen T. Balke,et al.  The reactive modification of polyethylene. II: Mathematical modeling , 1993 .

[111]  A. Brandolin,et al.  Recovery of molecular weight distributions from transformed domains. Part I. Application of pgf to mass balances describing reactions involving free radicals , 2002 .

[112]  Timothy M. Mauery,et al.  COMPARISON OF RESPONSE SURFACE AND KRIGING MODELS FOR MULTIDISCIPLINARY DESIGN OPTIMIZATION , 1998 .

[113]  Enrique Luis Lima,et al.  Modeling of semibatch styrene suspension polymerization processes , 2005 .

[114]  Pierre-Emile Duhamel,et al.  Progress in the development of interpenetrating polymer network hydrogels. , 2008, Polymers for advanced technologies.

[115]  A. Hui,et al.  Thermal polymerization of styrene at high conversions and temperatures. An experimental study , 1972 .

[116]  David W. Bacon,et al.  Gas Phase Ethylene Polymerization: Production Processes, Polymer Properties, and Reactor Modeling , 1994 .

[117]  C. H. Bamford,et al.  The coupling of polymers. Part 1.—Size distributions and intrinsic viscosities , 1960 .

[118]  José M. Asua,et al.  Modeling Gelation and Sol Molecular Weight Distribution in Emulsion Polymerization , 1995 .

[119]  Guoliang Xue,et al.  The MINPACK-2 test problem collection , 1992 .

[120]  Jorge Nocedal,et al.  A Limited Memory Algorithm for Bound Constrained Optimization , 1995, SIAM J. Sci. Comput..

[121]  D. Klempner,et al.  Interpenetrating Polymer Networks , 1994 .

[122]  Archie E. Hamielec,et al.  Modelling free-radical copolymerization kinetics—evaluation of the pseudo-kinetic rate constant method, 2†. Molecular weight calculations for copolymers with long chain branching , 1993 .

[123]  D. Soong,et al.  Major factors contributing to the nonlinear kinetics of free-radical polymerization , 1985 .

[124]  Lazaros G. Papageorgiou,et al.  Robustness metrics for dynamic optimization models under parameter uncertainty , 1998 .

[125]  Urmila M. Diwekar,et al.  An efficient sampling technique for off-line quality control , 1997 .

[126]  Vipin Kumar,et al.  A Fast and High Quality Multilevel Scheme for Partitioning Irregular Graphs , 1998, SIAM J. Sci. Comput..

[127]  P. Flory Principles of polymer chemistry , 1953 .

[128]  Francis J. Doyle,et al.  Control of particle size distribution described by a population balance model of semibatch emulsion polymerization , 2000 .

[129]  Timothy J. Crowley,et al.  Calculation of Molecular Weight Distribution from Molecular Weight Moments in Free Radical Polymerization , 1997 .

[130]  José M. Asua,et al.  Critically Evaluated Rate Coefficients for Free‐Radical Polymerization, 5, , 2004 .

[131]  Premamoy Ghosh,et al.  Modification of low density polyethylene (LDPE) by graft copolymerization with some acrylic monomers , 1998 .

[132]  Jorge J. Moré,et al.  Benchmarking optimization software with COPS. , 2001 .

[133]  Avanish Kumar Srivastava,et al.  Interpenetrating polymer networks : a review on synthesis and properties , 1994 .

[134]  Archie E. Hamielec,et al.  Chain-length-dependent termination for free radical polymerization , 1989 .

[135]  Christos Georgakis,et al.  Optimal measurement system design for chemical processes , 2003 .

[136]  Horng-Jer Tai,et al.  Molecular structure evolution in peroxide‐initiated crosslinking of an ethylene vinyl acetate copolymer and a metallocene polyolefin elastomer , 1999 .

[137]  Th. Meyer and,et al.  Chapter 1. Polymer Reaction Engineering, an Integrated Approach , 2008 .

[138]  M. Wulkow,et al.  The simulation of molecular weight distributions in polyreaction kinetics by discrete Galerkin methods , 1996 .

[139]  G. Odian,et al.  Principles of polymerization , 1981 .

[140]  Elizabeth A. Peck,et al.  Introduction to Linear Regression Analysis , 2001 .

[141]  Archie E. Hamielec,et al.  Polymer reactors and molecular weight distribution. IV. Free‐radical polymerization in a steady‐state stirred‐tank reactor train , 1968 .

[142]  Klaas R. Westerterp,et al.  Modeling of free radical polymerization up to high conversion. I. A method for the selection of models by simultaneous parameter estimation , 1997 .

[143]  Lorenz T. Biegler,et al.  Large-Scale Nonlinear Programming for Multi-scenario Optimization , 2006, HPSC.

[144]  Francis J. Doyle,et al.  Hybrid model-based approach to batch-to-batch control of particle size distribution in emulsion polymerization , 2003, Comput. Chem. Eng..

[145]  Thomas F. Edgar,et al.  Robust error‐in‐variables estimation using nonlinear programming techniques , 1990 .

[146]  A. Buchelli,et al.  Modeling Fouling Effects in LDPE Tubular Polymerization Reactors. 1. Fouling Thickness Determination , 2005 .

[147]  J. Halton On the efficiency of certain quasi-random sequences of points in evaluating multi-dimensional integrals , 1960 .

[148]  Benjamin J. McCoy,et al.  Peroxide enhancement of poly(α-methylstyrene) thermal degradation , 2001 .

[149]  Archie E. Hamielec,et al.  Polymer reactors and molecular weight distribution: Part II. Free radical polymerization in a batch reactor , 1967 .

[150]  Ewa Andrzejewska,et al.  Chain length dependent termination in radical cross-linking polymerization , 2005 .

[151]  Zengrong Zhang,et al.  Characterization of Styrene Copolymers Using Size-Exclusion Chromatography with On-line FT-IR Viscometer Detectors , 2007 .

[152]  Frank Allgöwer,et al.  Assessment and Future Directions of Nonlinear Model Predictive Control , 2007 .

[153]  Boxin Tang A theorem for selecting OA-based Latin hypercubes using a distance criterion , 1994 .

[154]  Hidetaka Tobita,et al.  Simulation model for the molecular weight distribution in emulsion polymerization , 1995 .

[155]  Deoki N. Saraf,et al.  Free radical polymerizations associated with the trommsdorff effect under semibatch reactor conditions. II: Experimental responses to step changes in temperature , 1996 .

[156]  Adriana Brandolin,et al.  Prediction of molecular weight distributions by probability generating functions. Application to industrial autoclave reactors for high pressure polymerization of ethylene and ethylene-vinyl acetate , 2001 .

[157]  David W. Bacon,et al.  Modeling Ethylene/Butene Copolymerization with Multi‐site Catalysts: Parameter Estimability and Experimental Design , 2003 .

[158]  Costas Kiparissides,et al.  Development of a Comprehensive Model for Diffusion-Controlled Free-Radical Copolymerization Reactions , 2002 .

[159]  Jack P. C. Kleijnen,et al.  Kriging interpolation in simulation: a survey , 2004, Proceedings of the 2004 Winter Simulation Conference, 2004..

[160]  K. G. Denbigh Continuous reactions. Part II. The kinetics of steady state polymerisation , 1947 .

[161]  T. Hassard,et al.  Applied Linear Regression , 2005 .

[162]  Lorenz T. Biegler,et al.  On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming , 2006, Math. Program..

[163]  Jorge Nocedal,et al.  Algorithm 778: L-BFGS-B: Fortran subroutines for large-scale bound-constrained optimization , 1997, TOMS.

[164]  A. Brandolin,et al.  Peroxide modification of polyethylene. Prediction of molecular weight distributions by probability generating functions , 2002 .

[165]  John R. Richards,et al.  Measurement and control of polymerization reactors , 2006, Comput. Chem. Eng..

[166]  Leslie H. Sperling,et al.  Interpenetrating Polymer Networks and Related Materials , 1981 .

[167]  Costas Kiparissides,et al.  Prediction of the Bivariate Molecular Weight‐Long Chain Branching Distribution in High‐Pressure Low‐Density Polyethylene Autoclaves , 2007 .

[168]  Seung-Yup Lee,et al.  Catalytic Degradation of Mixture of Polyethylene and Polystyrene , 2002 .

[169]  W. Harmon Ray,et al.  Modeling and Experimental Studies of Aqueous Suspension Polymerization Processes. 3. Mass-Transfer and Monomer Solubility Effects , 1997 .

[170]  Benjamin J. McCoy,et al.  Degradation Kinetics Enhancement of Polystyrene by Peroxide Addition , 2000 .

[171]  Philip E. Wood,et al.  Experimental investigation of vinyl chloride polymerization at high conversion: semi-batch reactor modelling , 1991 .

[172]  In Sun Kim,et al.  Recent advances in polymer reaction engineering: Modeling and control of polymer properties , 2004 .

[173]  J. L. Duda,et al.  Penetrant transport in polyethylene‐polystyrene semi‐interpenetrating polymer networks , 1997 .

[174]  Kunio Arai,et al.  SIMULATION MODEL FOR THE RATE OF BULK POLYMERIZATION OVER THE COMPLETE COURSE OF REACTION , 1976 .

[175]  W. H. Ray,et al.  Molecular Weight Distributions in Copolymer Systems. I. Living Coplymers , 1971 .

[176]  Claudio Scali,et al.  Analysis of the molecular weight distribution in free radical polymerization : Modelling of the MWD from the analysis of experimental GPC curves , 1999 .

[177]  J. R. Millar 263. Interpenetrating polymer networks. Styrene–divinylbenzene copolymers with two and three interpenetrating networks, and their sulphonates , 1960 .

[178]  A. Papoulis A new method of inversion of the Laplace transform , 1957 .

[179]  Thomas P. Davis,et al.  Critically evaluated rate coefficients for free‐radical polymerization, 2.. Propagation rate coefficients for methyl methacrylate , 2000 .

[180]  James V. Beck,et al.  Parameter Estimation in Engineering and Science , 1977 .

[181]  Park M. Reilly,et al.  A Bayesian Study of the Error-in-Variables Model , 1981 .

[182]  Musa R. Kamal,et al.  Thermolysis of polyethylene/polystyrene mixtures , 1996 .

[183]  F. Teymour,et al.  Analysis of the Dynamics of Gelation in Polymerization Reactors Using the , 1994 .

[184]  L. E. Scriven,et al.  Kinetic Gelation Modeling: Structural Inhomogeneity during Cross-Linking Polymerization , 2003 .

[185]  Wenping Guo,et al.  Modeling of the bulk free radical polymerization up to high conversion—three stage polymerization model I. Model examination and apparent reaction rate constants , 2002 .

[186]  P. Toint,et al.  An adaptive cubic regularization algorithm for nonconvex optimization with convex constraints and its function-evaluation complexity , 2012 .

[187]  Sung Chul Kim,et al.  Dicumyl Peroxide-Initiated Crosslinking Reaction of Low Density Polyerthylene , 1984 .

[188]  Peter Singstad,et al.  Prediction of Molecular Weight Distribution and Long-Chain Branching Distribution of Low-Density Polyethylene from a Kinetic Model , 1997 .

[189]  Matthew Tirrell,et al.  On the onset of the Trommsdorff effect , 1982 .

[190]  Robert L. Laurence,et al.  An analysis of caprolactam polymerization , 1975 .

[191]  Lorenz T. Biegler,et al.  Reduced successive quadratic programming strategy for errors-in-variables estimation , 1992 .

[192]  Rosemary A. Renaut,et al.  Computational Statistics and Data Analysis , 2022 .

[193]  Suresh G. Advani,et al.  Process Modeling in Composites Manufacturing , 2004 .

[194]  P. G. de Gennes,et al.  Kinetics of diffusion‐controlled processes in dense polymer systems. II. Effects of entanglements , 1982 .

[195]  L. Biegler,et al.  Advances in simultaneous strategies for dynamic process optimization , 2002 .

[196]  Donald C. Sundberg,et al.  Non-equilibrium particle morphology development in seeded emulsion polymerization. 1: penetration of monomer and radicals as a function of monomer feed rate during second stage polymerization , 1999 .

[197]  Jaroslav Kahovec,et al.  SOURCE-BASED NOMENCLATURE FOR NON-LINEAR MACROMOLECULES AND MACROMOLECULAR ASSEMBLIES , 2009 .

[198]  Freerk A. Lootsma,et al.  State-of-the-art in parallel nonlinear optimization , 1988, Parallel Comput..

[199]  Massimo Morbidelli,et al.  Calculation of molecular weight distributions in free‐radical polymerization with chain branching , 1999 .

[200]  Rolf Rannacher,et al.  Modeling, Simulation and Optimization of Complex Processes: Proceedings of the International Conference on High Performance Scientific Computing, March 10-14, 2003, Hanoi, Vietnam , 2005 .

[201]  Douglas R. Miller,et al.  “In‐out” recursive probability modeling of branched step‐growth polymerizations , 1998 .

[202]  Ricardo A. F. Machado,et al.  Synthesis of PS/PMMA Core−Shell Structured Particles by Seeded Suspension Polymerization , 2008 .