2005/2006 - Registrar - McMaster University

166 CHE'MICAL ENGINEERINGCHEM ENG 2004 ~', CHEMICAL ENGINEERING PRINCIPLES I ,Steady-state mass balances in chemical processes and the first law ofthermodynamics. The behaviour of gases and liquids, and their physical, equilibria. Recycle in steady state operation.Thre~-Iectures: one tutorial (three hours); first termPrerequisite: Registration in Levell! of any Chemical Engineering program I, . . " !CHEM ENG 2F04 ,I CHEMICAL ENGINEERING PRINCIPLES II 'Combined mass and energy balances in the steady and unsteady state. ;The second law of thermodynamics and physical chemical equilibria.Introduction of process simulation packages.Three lectures,onetutcirial (three hours); second' term'Prerequisite:, Registration or credit in CHEM ENG 2004'CHEM ENG 2G03 PROBLEM'SOLVINGANDCH,EM ENG 3004 FLUII) MECHANICS , ' 'TECHNICAL COMMUNICATIONDeveloping 'awareness, strategies, creativity, analysis and interpersonal'skills in the context of solving homework problems and preparingtechni,.cal communications. Interpretation, retrieval manipulation and communicationof information~Three lectures; first term.Antirequisite: CHEM ENG 2C02, 2G02The laws of statics and dynamics in botht:ompressible and incompressiblefluids. Equations of conservation and modern turbulence andbound~ary layer theory applied to submerged and conduitflow. Similitude, unsteadyflow, measuring devices arid fluid, machinery.Thre,e lecture's, one tutorial (three hours); first term'Prerequisite: MATH2M06"br both MATH 2P04 and 2004, or both MATH'2A03 and 2C03 (anyofwhich may be taken concurrently); andregistrationin a Chemical Engineering or Materials Scierice,or Materials Engineer-CHEM ENG 3BC4 CELL BIOLOGY AND MICROBIOLOGYing, program'Introduction to cell structure and function,including transport:and chemicalsignals, adaptation of struc!ture and function.' Use of, micro organismsin biotechnology. Biology of the prokarytoic cell.Transient behaviour of chemical processes. Theory and practice of a~­CHEM ENG 3P04 PROCESS ,CONTROL.Three lectures, one lab (three hours); second termtomatic control., Introduction to computer process control.Prerequisite: Regi~tration in Chemical Engineering and Bioengineering Three lectures, one tutorial (two hours); second termPrerequisite: MATH 2M06; and registration or credit in CHEM ENG 2AQ4,CHEM ENG 3BK3 BIO-REACTION ENGIN,EERING3E04, 3K04, 3004; and CHEM ENG 3G03 or 3G04 , ' ,< Kinetics of cellular processes, microbial' processes and enzyme reactionsAntireqLiisite:CHEM ENG 3P03including those,of immobilized cells and enzymes. Cell culturing. Bioreactordesign. Bioprocess development including downstream processing. CHEM ENG 3Q03 ' INTRODUCTION TO POLYMER SCIENCEThree,leptures; first ten;' ,An overview of important synthetic and natural polyrners with emphasis,Prerequisite: Registration in Level IV of any Chemical Engineering program;'0rCHEM ENG 2B03; or permission of the Departmenton polymer structure, the chemistry of polymer formation. An introductionto 'polymer characterization.'Three lectures; sec'o.nd term ,CHEM ENG3BM3 BIOSEPARATIONS ENGINEERINGPrerequisite: One o.f CHEM 2B06, 2003, 2E03, 2006, 2WW2, 2WW4Introquction to bioseparations engineering, cell disintegration; precipita-, Hon based separation processes, extraction,adsorptiqn, chromatography,centrifugal separations, filtration, membrane based separation proc-;CHEM ENG 4B03 , POLYMER REACTION ENGINEERINGKinetics of polymerization: step-growth and chain-growth' (free radical,esses, electrophoresis. 'anionic; anionic coordination and ,cationic). Polymerization processes:Three lectures; ,second termsolution/bulk, suspension, emulsion,gas-phase, slurry and reactiveprocessing., Principles of polymer process and reactor design, optimization'and' control.Prer-equisite:Registration in Level IV of a Chemical Engineering Program;orCHE~ ENG 2B03; or permission of the Department 'Three lectures; first term;CHEM ENG 3003 CHEMICAL ENGINEERING THERMODYNAMICS -Prerequisite: CHEM ENG 3K04, 3003Review of the total energy, balance, mechanical energy balance and,CHEM ENG4C03 STATISTICS FOR ENGINEERSthermodynamics of one component system. Chemical reaction and phaseLinear regression analysis in matrix form, non-linear regression, multi~r~sponseestimation" design of experiments' including factorial and optimal de­equilibria of multicomponent systems, with emphasis on non~ideality.Two lectures, one tutorial (two hours);~ first term 'signs. Special emphasis on' methods appropriate to engineering problems.I Prerequisite: CHEM ENG 2F04Three lectures; one term ',' " , , 'CHEM ENG 3E04 ,PROCESS MODEL FORMULATIONPrerequisite: One of COMMERCE 20A3, STATS 3N03 or 3Y03AND SOLUTIONCHEM ENG 4E03 DIGITAL COMPUTER PROCESS CONTROLFormulatioll of models for various chemical processing units in the steady'This course ,addresses key aspects of implementing control via discreteand unsteady states. Techriquesfor numerical solution of model equacalculationsusing digital computers~ Topics include discrete-time dynamicmodels, system' identification, ,analysis of discrete-time systems,, tions, including algebraic and ordinary differential equations, both linearand non-linear.',design of digital control systems and model predictive control. 'Three lectures; one tutorial (one hour), every week; first termThree lectures; first term " 'Prerequisite: CHEMENG2F04, MATH 2M06Prerequi'site: CHEMENG 3E04, 3K04, 3M04, 3P03; and CHEM ENG 3G03CHEM ENG 3G04 SIMULATION, MODELLINGor 3G04AND PROBLEM SOLVINGCHEM ENG 4G03 OPTIMIZATION IN CHEMICAL ENGINEERINGChemical process simulatiori including models for heat exchangers, sepa·'rators and reactors. Group skills, decision-making and self-directed, problem-:.basedlearning. "Three lectures, one, tutorial (two hours); second term', Prerequisite: CHEM ENG 2G02 or 2G03; and registration or credit in CHEMENG 2A04, 3003, 3E04, 3K04, 3M04 'Antirequisite: CHEM ENG3G03 >CHEM ENG 3K04 INTROQUCTION TO REACTOR DESIGN'Stoichiometry of multiple reactions, kinetics of homogeneous reactions,interpretation of batch data, design of ideal and non-ideal CSTR and plugflow reactors. ' ,Three lectures; one tutorial (two' hours); second termPrerequisite: MATH 2M06 and registration or credit in GHEM ENG 2F04and 3003; or a grade of at least B+ in 'CHEMENG 2B03 and permission of, the DepartmentCHEMENG 3L02 INTERMEDIATE LABORATORY SKILLSExperiments and projects in heat trans~er, thermodynamics, ~ass transferand fluid mechani,cswith appropriate data, analysis and report writing.One lecture, one ,lab (three hours); second termPrerequisite: CHEM ENG 3003, 3M04, 3004 arid reg"istratio(l or credit inCHEM ENG'2A04, CHEM ENG 3M04 MASS TRANSFERANDSTAGEWISE OPERATIONSStagewise operations, diffusion, mass transfer coefficients, distillation,differential contacting and absorption.Three lectures, one tutorial (two h'ours); fi~st termPrerequisite: CHEM ENG 2F04 'The application on optimization methods to important engineering problemsin equipment design and operation, statistics, control, engineeringeconomics and scheduling. The course' will emphasize problem definition;model formulation and solution analysis, with sufficient details on .existing algorithms and software. to' solve problems.Two lectures, one tutorial (two hours); second termPrerequisite: CHEM ENG 3E04, 3M04, 3004; 3P03; and CHEM ENG 3G03or 3G04Coreql:Jisite: CHEM ENG 4N04CHEM ENG 4K03REACTOR DESIGN FOR"', HETEROGENOUS SYSTEMSCatalytic kinetics, masstrartsfer limitations,' packed and' fluidized bedreactors, two phase reactors.. Three lectures; second' termPrerequi$ite:, CHEM ENG 3K04