Undergraduate Bulletin - Illinois Institute of Technology

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$Math 152 - Lecture Notes # 3 - David Maslanka THE CATENARY A ...$

Course Descriptions CHE 439 Numerical & Data Analysis Utilization of numerical methods to find solutions to a variety of chemical engineering problems. Emphasis placed on problem formulation, development of computer code, and interpretation of results. Techniques covered include: systems of algebraic equations, linear regression, and statistics. Numerical differentiation and integration, solution of ordinary and partial differential equations. Prerequisite(s): [(CHE 406*, CHE 423, and CHE 435)] AND [(MATH 252)] An asterisk (*) designates a course which may be taken concurrently. (3-0-3) CHE 451 Thermodynamics II Second law analysis of cooling, separation, combustion, and other chemical processes. Chemical reaction equilibrium and processing applications. Prerequisite(s): [(CHE 351)] (3-0-3) CHE 455 Polymer Processing Considerations of transport processes in the polymer industry. Analysis of heat, mass, and momentum transfer in molten polymers and polymer solutions. The polymer flow processes to be discussed will include: extrusion, calendaring, fiber spinning, injection molding, mixing, and polymerization reaction. Prerequisite(s): [(CHE 301 and CHE 302)] (3-0-3) CHE 465 Electrochemical Energy Conversion Thermodynamics, kinetic and mass-transfer fundamentals of electrochemical devices. Potential and potential measurement. Batteries and fuel cells. Fundamentals of corrosion and corrosion prevention. Prerequisite(s): [(CHE 302)] (3-0-3) CHE 467 Fuel Cell System Design System or chemical reactor perspective of fuel cell design. Macro-scale modeling of fuel cell applications. Description of electrode/electrolyte assemblies and the three phase region, polarization curve characterization, analysis of continuous flow systems, typical fuel cell stack configurations, analysis of spatial non-uniformities in stacks, and balance of plant design. Prerequisite(s): [(CHE 423)] (3-0-3) CHE 470 Introduction to Polymer Science An introduction to the basic principles that govern the synthesis, processing and properties of polymeric materials. Topics include classifications, synthesis methods, physical and chemical behavior, characterization methods, processing technologies and applications. Same as CHEM 470 and MMAE 470. Prerequisite(s): [(CHEM 124, MATH 251, and PHYS 221)] (3-0-3) CHE 489 Fluidization Regimes of fluidized beds, rheology behavior of fluidized beds, particle classification, properties of the bubble, emulsion, elutriation, and jet. Fluid mechanic theory and heat and mass transfer in fluidized beds. Design aspects of fluidized beds and pneumatic conveying. Industrial applications of fluidized beds (catalytic reactors, drying, coal conversion, waste treatment). Prerequisite(s): [(CHE 302)] (3-0-3) CHE 491 Undergraduate Research Students undertake an independent research project under the guidance of a chemical and biological engineering faculty member. (Credit: Variable) CHE 494 Process Design I Introduction to design techniques and economic aspects of chemical processes. The technical and economic aspects of equipment selection and design, and alternative methods of operation. Prerequisite(s): [(CHE 302, CHE 423*, CHE 433, CHE 435*, and CHE 451)] An asterisk (*) designates a course which may be taken concurrently. (2-2-3) (C) CHE 496 Process Design II Group project in process design. Integration of technical, safety, environmental, economic, and societal issues in process development and design. Only CHE students should register for this course. Open only to Chemical Engineering majors. Prerequisite(s): [(CHE 423*, CHE 435*, and CHE 494)] An asterisk (*) designates a course which may be taken concurrently. (1-2-2) (C) CHE 497 Special Projects Special projects. (Credit: Variable) CHE 498 Chemical Process Safety Design The purpose of the course is to apply process design disciplines to integrate safety as a principal of the design process. Typical subjects are: thermodynamics of explosions, identification of process hazards, chemical reactivity hazards, dispersion models of release of toxic materials, fires and fire protection, and HAZOP and Fault Tree analysis. Prerequisite(s): [(CHE 494)] (3-0-3) GRADUATE COURSES Degree-seeking undergraduates may take graduate courses with approval of the course instructor and faculty advisor. For course descriptions, see the IIT Bulletin: Graduate Programs. CHE 503 Thermodynamics CHE 506 Entrepreneurship and Intellectual Property Management CHE 508 Process Design Optimization CHE 525 Chemical Reaction Engineering 204
Course Descriptions CHE 530 Advanced Process Control CHE 535 Applications of Mathematics to Chemical Engineering CHE 536 Computational Techniques in Engineering CHE 538 Polymerization Reaction Engineering CHE 541 Renewable Energy Technologies CHE 542 Fluidization and Gas-Solids Flow Systems CHE 543 Energy, Environment and Economics CHE 545 Metabolic Engineering CHE 551 Advanced Transport Phenomena CHE 553 Advanced Thermodynamics CHE 555 Polymer Processing CHE 560 Statistical Quality and Process Control CHE 565 Fundamentals of Electrochemistry CHE 566 Electrochemical Engineering CHE 567 Fuel Cell Fundamentals CHE 575 Polymer Rheology CHE 577 Bioprocess Engineering CHE 580 Biomaterials CHE 582 Interfacial and Colloidal Phenomena with Applications CHE 583 Pharmaceutical Engineering CHE 584 Tissue Engineering CHE 585 Drug Delivery Chemistry CHEM 100 Introduction to the Profession Introduction to the chemical sciences, scientific method, computing tools, and interrelations of chemical sciences with biology, physics and other professions. (2-0-2) (C) CHEM 122 Principles of Chemistry I Without Laboratory Foundations of chemistry, atoms and molecules, stoichiometry of chemical reactions, thermo chemistry, properties of gases, states of matter, chemical solutions, kinetics. Molecular basis for chemical reactivity; atomic structure, periodicity, chemical bonding. Same as CHEM 124 except without the laboratory. (3-0-3) CHEM 123 General Chemistry Laboratory General chemistry laboratory. CHEM 124. (0-3-1) The laboratory portion of CHEM 124 Principles of Chemistry I with Laboratory Foundations of chemistry, atoms and molecules, stoichiometry of chemical reactions, thermo chemistry, properties of gases, states of matter, chemical solutions, kinetics. Molecular basis for chemical reactivity; atomic structure, periodicity, chemical bonding. (3-1-4) (C) CHEM 125 Principles of Chemistry II Chemical equilibria, the chemistry of acids and bases, solubility and precipitation reactions. Introduction to thermodynamics and electrochemistry. Chemistry of selected elements and their compounds. Prerequisite(s): [(CHEM 124) OR (IIT Chemistry Placement: 125)] (3-3-4) (C) CHEM 126 Principles of Chemistry II Same as CHEM 125 except without the laboratory. Prerequisite(s): [(CHEM 122) OR (CHEM 124)] (3-0-3) CHEM 140 Principles of Chemistry II Lab Laboratory portion of CHEM 125 (Principles of Chemistry II) covering Chemical Equilibria, the chemistry of acids and bases, solubility, and precipitation reactions. Introduction to thermodynamics and electrochemistry. Chemistry of selected elements and their compounds. Prerequisite(s): [(CHEM 126)] (0-3-1) CHEM 235 Organic Chemistry I-Lecture The constitution and properties of the different classes of organic compounds, with considerable attention to stereochemistry, reaction mechanisms, synthetic organic and bio-organic chemistry, and spectroscopy. The laboratory work involves an introduction to major synthetic and analytical techniques of organic chemistry including the preparation of representative organic compounds and the isolation of compounds from natural sources. Lecture only. Prerequisite(s): [(CHEM 125) OR (CHEM 126)] (3-0-3) 205
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Bulletin: Undergraduate Programs 20
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Foreword Foreword for the IIT Under
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Calendar IIT Academic Calendar for
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IIT Profile Colleges of Illinois In
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Faculty Matthew J. Bauer B.S., M.S.
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Faculty Peter David Land A.A. Dipl.
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Maps Downtown Campus and Institute
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Telephone Directory Administrative
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Undergraduate Bulletin - Illinois Institute of Technology

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