CHEMICAL ENGINEERING
CHG1125 | Chemical Engineering Fundamentals | (3,1.5,2) 3 cr. |
Chemical profession in relation to the chemical process industry. System of units, dimensions. Processes, process variables and flowcharts. Material balances: single and multiple units, recycle and bypass, reactive and non-reactive systems. Chemical equilibrium, single-phase and multi-phase systems, solutions, phase diagrams. Introduction to energy balances. Unit operations and instrumentation. Introduction to problem solving techniques and use of spreadsheets. | ||
Prerequisite: CHM1311 or CHM1301. | ||
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CHG1525 | Principes de base du génie chimique | (3,1.5,2) 3 cr. |
Discussion sur l'industrie des procédés chimiques et le rôle de l'ingénieur chimiste. Systèmes d'unités, dimensions. Procédés et variables de procédés et diagrammes de procédé. Bilans de matière: procédés à une ou plusieurs unités, recyclage, circuit alternatif, systèmes réactifs et non-réactifs. Équilibre chimique, système à une et plusieurs phases, solutions, diagrammes de phase. Introduction aux bilans d'énergie. Opérations unitaires et instrumentation. Introduction aux techniques de solutions de problèmes et l'utilisation d'un chiffrier. | ||
Préalable : CHM1711 ou CHM1701. | ||
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CHG2312 | Fluid Flow | (3,1.5,0) 3 cr. |
Application of fluid flow principles to the solution of engineering problems. Macroscopic mass, momentum, and energy balances. Newtonian and non-Newtonian fluids, compressible and incompressible fluids. Friction factors and Reynolds numbers for flow in conduits, around submerged objects, in packed beds and porous media. Fluidization. Flow measurement, dimensional analysis. | ||
Prerequisite: CHG1125. | ||
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CHG2314 | Heat Transfer Operations | (3,1.5,0) 3 cr. |
Steady-state heat conduction in solids with and without extended surfaces. Natural and forced convective heat transfer. Transient heat conduction. Heat exchangers. Boiling heat transfer. Condensation. Evaporation. Thermal radiation. | ||
Prerequisites: CHG2312, CHG2317, MAT2384. | ||
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CHG2317 | Introduction to Chemical Process Analysis and Design | (3,1.5,0) 3 cr. |
Process analysis and design using mass and energy balances. Thermodynamic data and relationships. Simultaneous mass and energy balances on reactive and non-reactive systems. Mixing and solutions. Balances on transient processes. Introduction to computer-aided process calculations and design. | ||
Prerequisite: CHG1125. | ||
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CHG2712 | Mécanique des fluides | 3 cr. |
Applications des principes d'écoulement des fluides pour la résolution des problèmes d'ingénierie. Bilans macroscopiques de conservation de la matière, de la quantité de mouvement et de l'énergie. Fluides newtoniens et non newtoniens. Fluides compressibles et incompressibles. Facteurs de friction et nombres de Reynolds pour les écoulements dans des conduites, autour des objets et dans les lits fixes. Fluidisation. Mesures des débits. Analyse adimensionnelle. | ||
Préalable : CHG1525. | ||
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CHG2714 | Transfert de chaleur | (3,1.5,0) 3 cr. |
Conduction de la chaleur en régime stationnaire dans les solides avec et sans ailettes. Convection naturelle et assistée. Conduction de la chaleur en régime transitoire. Échangeurs de chaleur. Transfert de chaleur par ébullition. Condensation. Évaporation. Rayonnement thermique. | ||
Préalables : CHG2712, CHG2717, MAT2784. | ||
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CHG2717 | Introduction à l'analyse et la conception des procédés chimiques | (3,1.5,0) 3 cr. |
Analyse et conception des procédés en utilisant des bilans de matière et d'énergie. Relations et données thermodynamiques. Bilans simultanés de matière et d'énergie pour des systèmes réactifs et non-réactifs. Mélanges et solutions. Bilans sur des procédés transitoires. Introduction aux calculs et conception des procédés assistés par ordinateur. | ||
Préalable : CHG1525. | ||
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CHG2901 | Stage coop I \ CO-OP Work Term I | 3 cr. |
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CHG3111 | Unit Operations | (3,1.5,0) 3 cr. |
Design of industrial equipment for evaporation, drying, humidification, absorption and stripping in plate and packed towers, distillation, liquid-liquid extraction and adsorption. | ||
Prerequisite: CHG3316. | ||
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CHG3112 | Process Synthesis, Design and Economics | (3,1.5,0) 3 cr. |
Flowsheet synthesis. Design and scheduling of batch processes. Synthesis of reactor networks, separation systems, and heat-exchange networks. Equipment sizing and costing. Flowsheet optimization. | ||
Prerequisites: CHG3316, CHG3324. Prerequisite or corequisite: CHG3111. | ||
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CHG3122 | Chemical Engineering Practice | (1,0,4) 3 cr. |
Laboratory course intended to demonstrate practical aspects of chemical engineering and to develop skills in written communication and engineering judgment. Students carry out experiments dealing with fluid mechanics, heat transfer and thermodynamics, with emphasis on computerized data acquisition and analysis techniques. Effective technical report writing. Principles of professional engineering practice and ethics, the societal and environmental obligations of the engineer, and workplace health and safety. | ||
Prerequisites: CHG2312, CHG2314, CHG3324. | ||
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CHG3127 | Chemical Reaction Engineering | (3,1.5,1.5) 3 cr. |
Chemical reactor thermodynamics. Kinetics of chemical reactions. Batch reactors. Continuous stirred-tank reactors. Plug flow reactors. Interpretation of data and design of simple reactors. Heterogeneous reactors. Catalytic reactions. | ||
Prerequisites: CHG3316, CHG3331. | ||
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CHG3316 | Transport Phenomena | (3,1.5,0) 3 cr. |
Use of fundamental chemical engineering principles to solve problems in momentum, heat and mass transfer applications. Shell momentum balances. Equations of motion, mass and energy balances to determine velocity, temperature and concentration profiles for different geometries for steady-state and transient systems. Evaluation of concentration profiles in the presence of a chemical reaction, with and without a catalyst. Evaluation of mass transfer coefficients. | ||
Prerequisites for CHG: CHG2312, CHG2314, CHG2317, MAT2322, MAT2384. Prerequisites for CVG: CHG2317, CVG3132, MAT2322, MAT2384. | ||
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CHG3324 | Fundamentals and Applications of Chemical Engineering Thermodynamics | (3,1.5,0) 3 cr. |
First and second laws of thermodynamics. PVT behaviour of fluids. Equations of state. Thermal chemical effects. Estimation of physical-chemical properties. Applications of thermodynamics to various processes in the field of chemical engineering. | ||
Prerequisite: CHG2317. | ||
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CHG3326 | Principles of Phase Equilibria and Chemical Reaction Equilibria | (3,1.5,0) 3 cr. |
Properties of homogeneous mixtures. Models of solution. Fugacity and fugacity coefficient. Activity coefficient. Excess properties. Gibbs-Duhem equation and its applications. Criteria of equilibrium. Vapour-liquid equilibrium at low and high pressures. Methods of prediction. Chemical equilibrium constant, maximum conversion. Multi-reaction equilibria. Selection of operating conditions. Mathematical techniques related to the study of these topics. | ||
Prerequisites: CHG3316, CHG3324. | ||
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CHG3331 | Application of Mathematical Methods to Chemical Engineering | (3,1.5,0) 3 cr. |
Formulation and solution of ordinary and partial differential equations with particular emphasis on chemical engineering problems and computer applications. Numerical methods used for solution of differential equations, treatment and evaluation of data. | ||
Prerequisites: CHG2312, CHG2314, CHG2317, MAT2322, MAT2384. | ||
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CHG3335 | Process Control | (3,1.5,0) 3 cr. |
Fundamental concepts involved in establishing the transient behaviour and control characteristics of processes. Process dynamics. Dynamics of measuring and control elements. Controller characteristics. Dynamics of control loops. Stability criteria. Multiple loop systems. Advanced control system design. Introduction to sampled-data systems. | ||
Prerequisites: CHG2312, CHG2314, CHG2317, MAT2384. Prerequisite or corequisite: CHG3331. | ||
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CHG3337 | Data Collection and Interpretation | (3,1.5,0) 3 cr. |
Basic principles and techniques for the efficient design of experiments and effective analysis of data are presented. Topics include: the nature and analysis of process variability, comparing processes, blocking and randomization, empirical model building for quantifying relationships between process inputs and outputs, two-level factorial and fractional factorial designs for screening out inert input variables, mixture designs, response surface methodology, empirical optimization techniques, Taguchi methods, a practical approach to experimental design. | ||
Prerequisite: MAT2377. | ||
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CHG3716 | Phénomènes d'échange | (3,1.5,0) 3 cr. |
Utilisation des principes fondamentaux de génie chimique pour résoudre des problèmes dans des applications de transfert de quantité de mouvement, d énergie et de matière. Bilans différentiels de quantité de mouvement. Équations de mouvement, continuité et d'énergie pour déterminer des profils de vitesse, de température et de concentration dans différentes géométries pour des systèmes en régime permanent et transitoire. Évaluation des profils de concentration en présence d'une réaction chimique, avec et sans un catalyseur. Évaluation de coefficients de transfert de matière. | ||
Préalables : CHG2712, CHG2714, CHG2717, MAT2722, MAT2784. Préalables pour CVG : CHG2317, CVG3132, MAT2322, MAT2384. | ||
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CHG3724 | Principes et applications de thermodynamique en génie chimique | (3,1.5,0) 3 cr. |
Première et deuxième lois de la thermodynamique. Comportement PVT des fluides. Équations d'état. Effets chimiques-thermiques. Évaluation des propriétés physico-chimiques. Application de la thermodynamique à divers procédés dans le domaine du génie chimique. | ||
Préalable : CHG2717. | ||
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CHG3735 | Contrôle des procédés | (3,1.5,0) 3 cr. |
Concepts fondamentaux impliqués lors de l'établissement des caractéristiques transitoires et du contrôle des procédés. Dynamique des éléments de mesure et de commande. Caractéristiques de contrôleurs. Dynamique des boucles de contrôle. Critères de stabilité. Systèmes de boucles multiples. Conception de systèmes de contrôle avancés. Introduction aux systèmes de données prélevées. | ||
Préalables : CHG2712, CHG2714, CHG2717, MAT2384. Préalable ou concomitant : CHG3331. | ||
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CHG3901 | Stage coop II \ CO-OP Work Term II | 3 cr. |
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CHG3902 | Stage coop III / CO-OP Work Term III | 3 cr. |
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CHG4116 | Chemical Engineering Laboratory | (0.5,0,5) 3 cr. |
Laboratory course to demonstrate chemical engineering principles, to further develop engineering judgment, to gain hands-on experience with equipment, and to enhance oral and written communication skills. Students participate in all phases of the investigation -- planning, execution, analysis, reporting. Use of the computer for simulation and data analysis. | ||
Prerequisite: CHG3122, CHG3111, CHG3127, CHG3326. Prerequisite or corequisite: CHG3335. | ||
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CHG4143 | Introduction to pharmacokinetic analysis of drug delivery systems. | 3 cr. |
This survey course examines engineering analyses of biotransport processes, with special focus on pharmacokinetic modeling and drug delivery. Beginning with overviews of solute exchange within the body and the human immune system, the course will then move to the topics of pharmacokinetics and drug delivery schemes. Both general approaches to, and specific examples of pharmacokinetic models will be examined. A review of a variety of drug delivery techniques currently applied or under investigation will also be presented. | ||
Prerequisites: CHG3316, CHG3331. | ||
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CHG4160 | Techniques in Biomedical Engineering | (3,0,2) 3 cr. |
Topics covered in this course are principles and techniques commonly used in biomedical engineering related to cell processing and tissue engineering, molecular biology, genetic engineering and gene therapy, biophysical chemistry, proteins and nucleic acids, and microscopy. | ||
Completion of second year chemical engineering studies. | ||
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CHG4244 | Plant Design Project | (3,0,6) 6 cr. |
A study of the engineering aspects involved in the development of an industrial plant. Capital and manufacturing cost estimates. Safety in design. Feasibility survey. Equipment design and specification. Plant layout and location. Students will work in small groups to produce a process design and economic evaluation of a complete industrial plant. | ||
Prerequisite: Completion of all 3rd-year compulsory courses. | ||
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CHG4301 | Air Pollution Control Processes | (3,0,0) 3 cr. |
This course will review sources and types of air pollution and discuss design of equipment for use in air pollution control, e.g. grit and dust removal, sampling, equipment performance, mist removal in chemical processes, gas absorption processes, solid chemical absorbents and regeneration processes. Stack heights, dispersions and meteorological factors. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4302 | Environmental Biotechnology | (3,0,0) 3 cr. |
Significance of microorganisms in the environment. Soil and aquatic environments, extreme environments. Kinetics of microbial growth and degradation of raw materials. Continuous and batch reactors. Mass and heat transfer. Aerobic and anaerobic processes. Microbial conversion of carbon, nitrogen and other elements. Microbial corrosion. Mineral leaching with microorganisms. Composting. Microbial contributions to pollution. Use of genetic techniques to engineer organisms with novel catalytic capabilities. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4305 | Advanced Materials in Chemical Engineering | (3,0,0) 3 cr. |
An introduction to the fundamentals of materials science with special emphasis on materials and applications of interest to chemical engineers. Biocompatibility and biomedical applications. Corrosion. Conductivity. Structure/property relationships in polymers, metals, ceramics, semiconducting materials, nanoporous materials and composites. | ||
Course reserved for 4th year students. | ||
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CHG4306 | Microelectronics Manufacturing Processes | (3,0,0) 3 cr. |
Background to integrated circuits. Clean room environments. Manufacturing processes: substrate formation, doping, ion implantation, oxidation, chemical vapour deposition, evaporation, sputtering, cleaning, etching, lithography, packaging, metrology and control. Fabrication of photonics and blood testing devices. | ||
Prerequisite: 54 credits of compulsory chemical engineering program courses. | ||
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CHG4307 | Clean Processes and Sustainable Development | (3,0,0) 3 cr. |
Design of environmentally-friendly, sustainable industrial processes. Pinch technology. Environmental considerations in new plant design, retrofitting, and operating protocol. | ||
Course reserved for 4th year students. | ||
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CHG4331 | Introduction to Polymer Reaction Engineering | (3,0,0) 3 cr. |
Principles governing polymerization reactions. Mechanisms and kinetics of step-growth and chain-growth polymerization and copolymerization. Physical properties of polymers and polymer characterization. Molecular weight distribution. Polymerization reaction engineering: mathematical modelling and polymer reactor design in industrial settings. | ||
Prerequisite: 81 credits of compulsory chemical engineering program courses. | ||
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CHG4333 | Fundamentals of Polymer Processing | (3,0,0) 3 cr. |
Polymer processing. Modelling philosophy. Continuum mechanics. Formulation and solution of equations for simple model flows. Extrusion Calendering. Coating flows. Fibre spinning. Tubular film blowing. Injection moulding. Mixing. Heat and mass transfer. Elastic phenomena. Stability of flows. | ||
Prerequisites: CHG3316, CHG3331. | ||
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CHG4343 | Computer-Aided Design in Chemical Engineering | (3,0,0) 3 cr. |
Role of Computer-Aided Design (CAD) in chemical industry. Approaches to CAD, potential and pitfalls. Estimation of physical/chemical properties application to the design of chemical processing units, evaluation of the design, sensitivity analysis. Applications include use of computer programs (software packages and student-created programs for the design of process units, e.g. distillation, towers, multiple effect evaporators, multicomponent absorbers, heat exchanger networks, etc.). | ||
Prerequisite: 81 credits of compulsory chemical engineering program courses. | ||
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CHG4359 | Selected Topics I | (3,0,0) 3 cr. |
Discussion of recent progress in chemical engineering. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4360 | Selected Topics II | (3,0,0) 3 cr. |
Discussion of recent progress in chemical engineering. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4361 | Selected Topics III | (3,0,0) 3 cr. |
Discussion of recent progress in chemical engineering. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4362 | Selected Topics IV | (3,0,0) 3 cr. |
Discussion of recent progress in chemical engineering. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4364 | Oil and Gas Processing | (3,0,0) 3 cr. |
Overview of the technologies, processes and equipment used in the characterization and processing of natural gas, crude oils and Canadian bitumen. | ||
Prerequisite: Completion of 2nd year chemical engineering studies. | ||
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CHG4365 | Particle Technology | (3,0,0) 3 cr. |
Industrial particulate processes. Particle characterization (size analysis), reactor design (fixed, fluidized beds), particle formation (granulation, size reduction), fluid-particle separation (filtration settling, cyclones), safety (dust explosions), transport (pneumatic transport, standpipes). | ||
Prerequisite: Completion of 2nd year chemical engineering studies. | ||
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CHG4377 | Risk Assessment and Hazard Analysis | (3,0,0) 3 cr. |
Basic concepts of the system approach to risk assessment in the context of risk management. Use of logic trees for defining problems. Overview of techniques for probabilistic risk assessment, reliability analysis (including human factors), and hazard analysis. Organization and application of analyses. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4381 | Introduction to Biochemical Engineering | (3,0,0) 3 cr. |
Elements of applied microbiology: taxonomy, morphology of micro-organisms, cell composition and metabolism, growth kinetics and product formation. Application of chemical engineering principles to the analysis of industrial fermentation processes. Bioreactor design and downstream processing. Industrial applications of bioprocesses: food processing, pharmaceuticals, conversion of waste materials to useful products. | ||
Course reserved for 4th year students. | ||
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CHG4385 | Adsorption Separations for Environmental Applications | (3,0,0) 3 cr. |
Basic principles and fundamentals of adsorption. Discussion of different important design parameters for adsorbers. Gas and vapour adsorption separation applications for environmental air pollution control. Liquid adsorption separation applications for water pollution control. Different types of designs for adsorbers are discussed. | ||
Prerequisite: Completion of 2nd-year chemical engineering studies. | ||
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CHG4900 | Thèse et séminaire / Thesis and seminars | (0,0,2) 6 cr. |
The student must prepare a thesis and present a seminar on an appoved topic. The topic must have received approval of a professor in the Department who will act as thesis supervisor. Les étudiants doivent préparer une thèse et préparer un séminaire sur un sujet approuvé. Le sujet de la thèse doit être approuvé par un professeur du département qui agira à titre de directeur de thèse. |
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Prerequisite: Completion of all 3rd-year compulsory courses. Préalable : Doit avoir complété tous les cours obligatoires de la troisième année. |
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CHG4901 | Stage coop IV / CO-OP Work Term IV | 3 cr. |
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CHG4902 | Stage coop V / CO-OP Work Term V | 3 cr. |
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