Copyright & Disclaimer Information - Illinois Institute of Technology
Copyright & Disclaimer Information - Illinois Institute of Technology Copyright & Disclaimer Information - Illinois Institute of Technology
Chemical and Environmental Engineering Professional Specializations Students choosing one of the professional specializations Appropriate substitutions may be made with the approval should take a total of four courses in the specialization area. of E 3 program advisers. 1. Energy/Environment/Economics (E 3 ) Program Adviser: H. Arastoopour Students must take a three-credit-hour course in special problems or research in energy from the following: CHE 492 Senior Problems MMAE 491 Undergraduate Research MMAE 494 Undergraduate Design Project MMAE 497 Undergraduate Special Topics ECE 491 Undergraduate Research ECE 497 Undergraduate Special Problems In addition, they should choose three or four courses - at least one course from each of the following three areas: Energy Sources and Conversion CHE 465 Electrochemical Energy Conversion CHE 481 Flow Through Porous Media and Fundamentals of Reservoir Engineering CHE 483 Synthetic Energy CHE 582 Interfacial and Colloidal Phenomena ECE 319 Fundamentals of Power Engineering MMAE 425 Direct Energy Conversion CHE 565 Electrochemical Engineering Energy and Power Distribution and Utilization/Environment CHE 430 Petrochemical Process Operations and Design CHE 482 LNG Fundamentals CHE 489 Fluidization MMAE 423 Air Conditioning and Refrigeration MMAE 424 Internal Combustion Engines ENVE 404 Water and Wastewater Engineering ENVE 463 Introduction to Air Pollution Control ENVE 476 Engineering Control of Industrial Hazards ENVE 480 Solid Waste Engineering ENVE 485 Pollution Prevention ECE 411 Power Electronics ECE 419 Power Systems Analysis ECE 420 Analytical Methods in Power Systems ECE 434 Control Systems with Laboratory ECE 435 Electrical, Magnetic and Optical Properties of Materials ECE 436 ECE 437 ECE 438 Analysis and Processing of Discrete Signals Digital Signal Processing I Control Systems Energy Analysis, Economics and Policy CHE 426 Statistical Tools for Engineers CHE 541 The Role of Energy in Industrial Economies CHE 543 Energy, Environment and Economics ECON 423 Economic Analysis of Capital Investments PS 338 Energy and Environmental Policy IIT Undergraduate Bulletin 1999-2001 Copyright & Disclaimer Information: Copyright © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs. Copyright & Disclaimer Information: Copyright © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs. 2. Environmental Engineering Program adviser: D. Moschandreas Students must take the following three courses: ENVE 404 Water and Wastewater Engineering ENVE 463 Introduction to Air Pollution Control ENVE 48 1 Hazardous Waste Engineering In addition, they should choose one course from the following: CHE 426 Statistical Tools for Engineers ENVE 401 Introduction to Water Resources Engineering ENVE 450 Analysis of Environmental Systems ENVE 476 Engineering Control of Industrial Hazards ENVE 480 Solid Waste Engineering ENVE 485 Pollution Prevention Appropriate substitutions may be made with the approval of the program adviser. 3. Polymer Science and Engineering Program adviser: D. Venerus The program embraces polymer chemistry, characterization, structure and properties, as well as the manufacture of polymeric raw materials and their processing into finished products. Four courses (12 credit hours) should be taken as follows: Students must take one of the following two courses: CHE 450 Principles of Polymer Science and Engineering CHEM 435 Introduction to Polymers In addition, they should choose two courses (six credit hours) from the following CHE 455 Polymer Processing CHE 492 Senior Problems CHE 538 Polymerization Reaction Engineering CHE 555 Polymer Processing CHE 575 Polymer Rheology CHE 581 Processing and Applications of Polymer Composite Materials CHEM 535 Advanced Polymer Chemistry CHEM 537 Polymer Chemistry Laboratory CHEM 542 Characterization of Polymers MMAE 467 Fundamental Principles of Polymer Materials MMAE 483 Structure/Property Relationship in Polymers MMAE 487 Fiber-Reinforced Polymer Composite Materials MMAE 579 Characterization of Polymers MMAE 580 Structure and Property of Polymers MMAE 58 1 Theory of Mechanical Behavior of Polymers
Illinois Institute of Technology Students should take up to one course (three credit hours) from the following: CHE 426 Statistical Tools for Engineers CHE 489 Fluidization CHE 582 Interfacial and Colloid Phenomena FPE 541 Principles of Food Packaging MMAE 451 Finite Element Methods in Engineering MMAE 485 Manufacturing Processes Appropriate substitutions may be made with the approval of the program adviser. 4. Bioengineering Program adviser: S. Parulekar Bioengineering has two career specializations: Biomedical Engineering Four courses (12 credit hours) most be taken and are allocated as follows: BIOL 107 General Biology Lectures BIOL 115 Human Biology CHE 411 Introduction to Bioengineering One elective is chosen from the following: BIOL 214 Genetics and Genetics Technology BIOL 403 Biochemistry Lectures BIOL 414 Genetics for Engineering Scientists BIOL 430 Animal Physiology: Lecture BIOL 445 Cell Biology CHE 426 Statistical Tools for Engineers CHE 492 Senior Problems CHE 510 Transport Phenomena in Living Systems Biotechnology Students must take the following course: CHE 411 Introduction to Bioengineering Three electives are chosen from the following: BIOL 107 General Biology Lectures BIOL 214 Genetics and Genetic Technology BIOL 403 Biochemistry Lectures BIOL 414 Genetics for Engineering Scientists BIOL 423 Microbial Genetics Laboratory BIOL 445 Cell Biology CHE 426 Statistical Tools for Engineers CHE 577 Biochemical Engineering CHE 578 Biochemical Engineering II CHE 579 Enzyme Reactor Engineering Copyright & Disclaimer Information: Copyright © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs. Copyright & Disclaimer Information: Copyright © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs. Chemical and Environmental Engineering 5. Process Design and Operation Program adviser: A. Cinar For students interested in design, operation, monitoring, optimization and control of chemical processes. At least two courses (six credit hours) must be taken from the following: CHE 426 Statistical Tools for Engineers CHE 431 Artificial Intelligence Applications in Engineering CHE 437 Discrete Time Systems and Computer Control CHE 507 Computer-Aided Design CHE 508 Process-Design Optimization CHE 528 Analysis and Simulation of Chemical Processing; CHE 530 Advanced Process Control CHE 532 Process Modeling CHE 560 Statistical Quality and Process Control Up to two courses may be selected from the following (only one may be an ENVE course): CHE 402 Introduction to Microelectronics Fabrication Technology CHE 430 Petrochemical Process Operations and Design CHE 455/555 Polymer Processing CHE 465 Electrochemical Energy Conversion CHE 475 Food Engineering I CHE 476 Food Engineering II CHE 489 Fluidization CHE 492 Senior Problems CHE 571 Food Process Engineering CHE 572 Advanced Food Process Engineering ENVE 450 Analysis of Environmental Systems ENVE 476 Engineering Control of Industrial Hazards ENVE 485 Pollution Prevention FPE 521 Food Process Engineering FPE 522 Advanced Food Process Engineering IIT Undergraduate Bulletin 1999-2001
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Chemical and Environmental Engineering<br />
Pr<strong>of</strong>essional Specializations<br />
Students choosing one <strong>of</strong> the pr<strong>of</strong>essional specializations Appropriate substitutions may be made with the approval<br />
should take a total <strong>of</strong> four courses in the specialization area. <strong>of</strong> E 3 program advisers.<br />
1. Energy/Environment/Economics (E 3 )<br />
Program Adviser: H. Arastoopour<br />
Students must take a three-credit-hour course in special<br />
problems or research in energy from the following:<br />
CHE 492 Senior Problems<br />
MMAE 491 Undergraduate Research<br />
MMAE 494 Undergraduate Design Project<br />
MMAE 497 Undergraduate Special Topics<br />
ECE 491 Undergraduate Research<br />
ECE 497 Undergraduate Special Problems<br />
In addition, they should choose three or four courses -<br />
at least one course from each <strong>of</strong> the following three areas:<br />
Energy Sources and Conversion<br />
CHE 465 Electrochemical Energy Conversion<br />
CHE 481 Flow Through Porous Media and<br />
Fundamentals <strong>of</strong> Reservoir Engineering<br />
CHE 483 Synthetic Energy<br />
CHE 582 Interfacial and Colloidal Phenomena<br />
ECE 319 Fundamentals <strong>of</strong> Power Engineering<br />
MMAE 425 Direct Energy Conversion<br />
CHE 565 Electrochemical Engineering<br />
Energy and Power Distribution and<br />
Utilization/Environment<br />
CHE 430 Petrochemical Process Operations<br />
and Design<br />
CHE 482 LNG Fundamentals<br />
CHE 489 Fluidization<br />
MMAE 423 Air Conditioning and Refrigeration<br />
MMAE 424 Internal Combustion Engines<br />
ENVE 404 Water and Wastewater Engineering<br />
ENVE 463 Introduction to Air Pollution Control<br />
ENVE 476 Engineering Control <strong>of</strong> Industrial Hazards<br />
ENVE 480 Solid Waste Engineering<br />
ENVE 485 Pollution Prevention<br />
ECE 411 Power Electronics<br />
ECE 419 Power Systems Analysis<br />
ECE 420 Analytical Methods in Power Systems<br />
ECE 434 Control Systems with Laboratory<br />
ECE 435 Electrical, Magnetic and Optical Properties<br />
<strong>of</strong> Materials<br />
ECE 436<br />
ECE 437<br />
ECE 438<br />
Analysis and Processing <strong>of</strong> Discrete Signals<br />
Digital Signal Processing I<br />
Control Systems<br />
Energy Analysis, Economics and Policy<br />
CHE 426 Statistical Tools for Engineers<br />
CHE 541 The Role <strong>of</strong> Energy in Industrial Economies<br />
CHE 543 Energy, Environment and Economics<br />
ECON 423 Economic Analysis <strong>of</strong> Capital Investments<br />
PS 338 Energy and Environmental Policy<br />
IIT Undergraduate Bulletin 1999-2001<br />
<strong>Copyright</strong> & <strong>Disclaimer</strong> <strong>Information</strong>: <strong>Copyright</strong> © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs.<br />
<strong>Copyright</strong> & <strong>Disclaimer</strong> <strong>Information</strong>: <strong>Copyright</strong> © 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007. CollegeSource®, Inc. and Career Guidance Foundation. CollegeSource® digital catalogs are derivative works owned and copyrighted by CollegeSource®, Inc. and Career Guidance Foundation. Catalog content is owned and copyrighted by the appropriate school. While CollegeSource®, Inc. and Career Guidance Foundation provides information as a service to the public, copyright is retained on all digital catalogs.<br />
2. Environmental Engineering<br />
Program adviser: D. Moschandreas<br />
Students must take the following three courses:<br />
ENVE 404 Water and Wastewater Engineering<br />
ENVE 463 Introduction to Air Pollution Control<br />
ENVE 48 1 Hazardous Waste Engineering<br />
In addition, they should choose one course from<br />
the following:<br />
CHE 426 Statistical Tools for Engineers<br />
ENVE 401 Introduction to Water Resources<br />
Engineering<br />
ENVE 450 Analysis <strong>of</strong> Environmental Systems<br />
ENVE 476 Engineering Control <strong>of</strong> Industrial Hazards<br />
ENVE 480 Solid Waste Engineering<br />
ENVE 485 Pollution Prevention<br />
Appropriate substitutions may be made with the approval<br />
<strong>of</strong> the program adviser.<br />
3. Polymer Science and Engineering<br />
Program adviser: D. Venerus<br />
The program embraces polymer chemistry, characterization,<br />
structure and properties, as well as the manufacture<br />
<strong>of</strong> polymeric raw materials and their processing into finished<br />
products. Four courses (12 credit hours) should be taken<br />
as follows:<br />
Students must take one <strong>of</strong> the following two courses:<br />
CHE 450 Principles <strong>of</strong> Polymer Science and<br />
Engineering<br />
CHEM 435 Introduction to Polymers<br />
In addition, they should choose two courses (six credit<br />
hours) from the following<br />
CHE 455 Polymer Processing<br />
CHE 492 Senior Problems<br />
CHE 538 Polymerization Reaction Engineering<br />
CHE 555 Polymer Processing<br />
CHE 575 Polymer Rheology<br />
CHE 581 Processing and Applications<br />
<strong>of</strong> Polymer Composite Materials<br />
CHEM 535 Advanced Polymer Chemistry<br />
CHEM 537 Polymer Chemistry Laboratory<br />
CHEM 542 Characterization <strong>of</strong> Polymers<br />
MMAE 467 Fundamental Principles <strong>of</strong> Polymer Materials<br />
MMAE 483 Structure/Property Relationship in Polymers<br />
MMAE 487 Fiber-Reinforced Polymer<br />
Composite Materials<br />
MMAE 579 Characterization <strong>of</strong> Polymers<br />
MMAE 580 Structure and Property <strong>of</strong> Polymers<br />
MMAE 58 1 Theory <strong>of</strong> Mechanical Behavior <strong>of</strong> Polymers