| source Indian Institute of Technology Bombay (X) |
level |
department Aerospace Engineering (141) Chemical Engineering (101) Chemistry (90) |
Development of Chemical Process Systems; Process Integration, Philosophy of Targeting, Thermodynamic Approach, Mathematical Programming Approach; Heat Exchanger Networks and Energy Optimization; Utility and Power Systems; Total Site Analysis; Separation Systems, Distillation Column Sequencing and Integration; Mass Exchange Networks; Networks for Water and Hydrogen Management; Reaction Path Synthesis, Reactor Networks, Reactor-Separator-Recycle Systems: Grassroots and Retrofit Designs, Multiple Base Case Designs; Flexibility Considerations; Industrial Applications and Case Studies. Last Update 21-06-2005 16:15:21
Score: 8.0734 Details | Listing | Web page
Review of Single Input Single Output (SISO) Control; Model Based Control; Multivariable control strategies; Internal Model Control Preliminaries and Model Predictive Control, Model forms for Model Predictive Control, Model forms for Model Predictive Control; Parametric and Non-parametric Models, State space and Transfer Function Representations and their inter relationships; Control Relevant Proces identification; Choice of Input Signals and Model Forms; Parameter Estimation using batch and Recursive Least Squares; Model Validations using Correlation Concepts; Identification of Non-parametric Representations; Model Predictive Control; Analysis of Dynamic Matrix Control (DMC) and Generalized Predictive Control (GPC) Schemes, Controller Tunning and Robustness Issues; Extensions to Constrained and Multivariable Cases. Last Update 21-06-2005 16:15:38
Score: 8.0734 Details | Listing | Web page
History and Relation of Artificial Intelligence (AI) to Process Engineering; Knowledge Representation I - Predicate calculus and Semantic Networks; Search - Forward/ Backward, Depth/breadth/best - first search; Production Systems: History, Components; Knowledge Representation II - Frames, Objects; Inexact Reasoning - Introduction, Bayesian Certainty Factors; Qualitative Physics, Causal Models - Introduction, Blackboard Architecture; Expert Systems - Applications to Industry; Programming Languages; Expert System Shells; Neural Nets - Introduction and Application to Process Engineering. Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Intorduction-History and Relation of Artificial Intelligence (AI) to Process Engineering; Knowledge Representation I- Predicate calculus and Semantic Networks; Search-forward/Backward. depth/breadth/best - first search; Production Systems; History; Components; Knowledge Representation II - Frames, Objects; Inexact Reasoning - Introduction, Blackboard Architecture; Expert Systems - Applications to Industry' Programming Languages; Expert System Shells; Neural Nets - Introduction and Application to Process Engineering. Last Update 21-06-2005 16:15:55
Score: 8.0734 Details | Listing | Web page
State space models, discretisation, ZOH equivalent, basic system, concepts, Z-transforms, transfer function, internal stability, frequecncy domain analysis, Fourier series and transforms. Identification, Traditional control techniques. State space techniques. Model predictive control, and adaptive control. Last Update 21-06-2005 16:28:09
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
x Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
x Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
x Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Errors and error control; Interpolation and optimization; Linear algebraic equations; Matrix inversion and matrix eigenvalues estimation; Solution of non-linear algebraic equations; Newton Raphson technique and homotopy; Numerical integration; Ordinary differential equations; Runge Kutta Techniques; Predictor corrector methods; solution of partial differential equations; implicit and explicit techniques; finite volume and finite element methods; Differential algebraic equations; Introduction to equation solving software like MATLAB, DSSL, LSODE etc. Last Update 21-06-2005 16:28:22
Score: 8.0734 Details | Listing | Web page
Course Content: The students are required to attend lectures on a wide variety of topics relevant to Chemical Engineering research and industry, presented by persons of high standing in industry and other academic institutions, faculty from the chemical Engineering and the other Departments /Centres /Schools at IIT-B and PhD Students at advanced stages in their Research. Assessment of the performance would be based on attendance alone. Last Update 21-06-2005 16:28:34
Score: 8.0734 Details | Listing | Web page
Fenske-Underwood equation and non-ideal mixtures with examples, Column design and economics, Multicomponent distillation: Composition profiles and pinches, Minimum stages and flows, Fenske-Underwood and Gilliland method, Multicomponent distillation: feasible product compositions, Non-ideal mixtures, azeotropes, residue curve maps and distillation boundaries, Column sequencing for ideal and non-ideal mixtures, Batch distillation: system synthesis, operating strategies and novel configurations, Thermally coupled and divided wall columns. Simulation and optimization, Reactive distillation: Uses, simulation and design aspects, Extension of the above concepts to other separations such as extraction, absorption and stripping. Last Update 21-06-2005 16:28:44
Score: 8.0734 Details | Listing | Web page
Course Content: The students are required to attend lectures on a wide variety of topics relevant to Chemical Engineering research and industry, presented by persons of high standing in industry and other academic institutions, faculty from the chemical Engineering and the other Departments /Centres /Schools at IIT-B and PhD Students at advanced stages in their Research. Assessment of the performance would be based on attendance alone. Last Update 21-06-2005 16:28:54
Score: 8.0734 Details | Listing | Web page
Review of biochemistry and industrial biotechnology. Solid-liquid separations: centrifugation, filtration, flocculation. Cell disruption. Membrane separations: diafiltration and dialysis, microfiltration, reverse osmosis, ultrafiltration. Extraction: solvent extraction, aqueous liquid-liquid extraction. Precipitation and Crystallization. Chromatographic theory and processes. Affinity purification. Process design. Last Update 21-06-2005 16:29:04
Score: 8.0734 Details | Listing | Web page
Last Update
Score: 8.0734 Details | Listing | Web page
Last Update
Score: 8.0734 Details | Listing | Web page
This course will deal with statistical analysis of engineering process data and the design of experiments. Specifically, this course will be concerned with building empirical models (linear as well as nonlinear models) from given data, analyzing the developed models for adequacy, and refining the model if required. Data analysis methods based on covariance structures of the variables will also be discussed. Further, generation of data in an âoptimalâ sense by using designed experiments will also be covered. Techniques for finding new operating regions for improved process performance will be discussed. Throughout the course, the main ideas will be illustrated by examples based on experimental or industrial data. The following topics will be covered: Basic Statistics: Confidence intervals; Hypothesis testing; Estimators and their properties Linear and Nonlinear Regression: Maximum-Likelihood estimation; Confidence intervals in linear regression; Hidden extrapolation and multicollinearity in multiple linear regression; Statistical inference in nonlinear regression; Bootstrapping in nonlinear regression Model Adequacy Analysis: Residual analysis: Lack of fit test; Analysis of variance Other Topics in Regression: Transformation and weighting to correct model inadequacies; Variable selection and model building; Generalized linear models; Non-parametric regression techniques Classification and regression trees. Methods based on covariance structures Principal components analysis; Canonical correlation analysis Design of Experiments: Design and analysis of single factor experiments; Experiments to compare k treatment means; 2 level factorial designs for design of experiments with several factors; Analysis of variance in factorial designs; Calculation of effects and relation to regression Blocking 2 level fractional factorial designs with several factors Generators, defining relations, aliasing, design resolution, projection, and fold-over designs in fractional factorial designs Response Surface Methodologies Direction of steepest ascent; Rotatable second order designs Last Update 13-07-2006 15:42:58
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Failure of classical mechanics; uncertainty principle; wave nature of particle; postulates of quantum mechanics and the Schrodinger equation; particle in a box; hydrogen atom; atomic and molecular orbitals; chemical bonding and molecular energy levels. State functions; entropy (S) and free energy (G); relation between G and emf, Calculations of S,G; fugacitics and activities and the equilibrium constant; Rate laws and orders; steady state approximation; Chain reactions (polymerisation, explosion); Photochemical reactions; Molecular reaction dynamics (Activated complex, potential energy surfaces and trajectories) Catalysis. Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Trends in the periodic table; metallurgy; basic principles and applications;purification of elements and metals; transition metal ions and complexes;coordination chemistry,redox chemistry, magnetochemistry, photochromisim,role of metal ions in biological processes; some relevant uses of transition elements; lanthanides, property trends in s- and p- block elements; liquid ammonia solutions; Grignard reagent; semiconducting and super conducting materials; silicones; silicates; zeolites; VSEPR; alkoxides; oxygen activation; nitrogen fixation; CFC`s Teflon, spinel. Structure and properties of organic molecules; relationship between shapes and properties of organic molecules - a perspective. Physical properties - intra - and inter - class variations. Conformations of alkanes and cycloalkanes; configurations, molecular chirality, geometrical isomerism. Linear and cyclic conjugation, benzene, aromaticity, properties of conjugated systems. Reactivity, reaction types, reaction mechanisms, reaction energetics and kinetics. Study of selected reactions and their mechanisms; nucleophilic substitution reaction, electrophilic and free radical addition reactions, electrophilic aromatic substitutions, nucleophilic addition; principles of nucleophilic addition to carbonyl groups; hydrolysis of ester and amides, their catalysis and significance; electronically excited states and photochemical reactions. Molecular systems of technological and biological importance. Fats and oils, amphiphilic molecules and their organization. Detergent action. Synthetic and natural polymers, polymer properties, Biopolymers - polypeptides, cellulose and starch. Self Study: Sources of organic compounds, products from coal and petroleum. Nomenclature of organic compounds. Last Update 03-04-2003 16:18:14
Score: 8.0734 Details | Listing | Web page
Schrodinger equation (origin of quantization), Born interpretation of wave function, Hydrogen atom: solution to Φ-part, MO theory: atomic and molecular orbitals, Structure, bonding and energy levels of diatomic molecules. Examples N2, O2, CO and HF, Configuration, molecular chirality and isomerism, Conformation of alkanes and cycloalkanes, Reactivity of carbonyl group (addition reactions, reactions due to acidic proton, addition-elimination reactions and reactivity of acid halide, ester and amide), Functional group interconversions involving oxidation and reduction, Periodic properties: trends in size, electron affinity, ionization potential and electronegativity, Use of Ellingham diagram and thermodynamics in the extraction of elements, Transition metal chemistry: inorganic complexes, bonding theories, magnetism, bonding aspects and structural distortion, Bioinorganic chemistry: storage and transport proteins, Catalysis: hydrogenation, hydroformylation and olefin metathesis. Last Update
Score: 8.0734 Details | Listing | Web page
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