Section 231 Course Listings 231.82 Civil Engineering, CIV E Early Implementation – 2012/2013

**New Course** Early Implementation Requested

CIV E 609 Underground Trenchless Construction 3 (fi 6) (either term, 3-0-0). Introduction to underground pipeline infrastructure. Focus on pipeline condition assessment. New construction such as horizontal directional drilling, pilot tube microtunneling, pipe bursting, and pipe jacking. Rehabilitation methods such as cured in place pipe lining, geotechnical consideration. Risk considerations for underground projects.

**New Course** Early Implementation Requested

CIV E 616 Traffic safety 3 (fi 6) (Fall term, 3-0-0). Introduction to traffic safety. Focus on collisions and exposure. Safety management process. Collision modeling, theory and applications. Safety evaluation techniques, challenges, opportunities, influence of confounding factors and regression to the mean bias.

Section 231 Course Listings 231.212 Petroleum Engineering, PET E

Current

Proposed

**New Course** Early Implementation Requested

PET E 631 Advanced Production Engineering 3.0 (fi 6) (either term, 3-0-0). Inflow performance relationships. Analysis of multiphase flow through pipes and restrictions using flow correlations and mechanistic methods. Flow pattern prediction for vertical, horizontal and inclined pipes. Total system analysis, production optimization. Design of artificial lift systems. Prerequisite: PET E 366 or consent of instructor.

**New Course** Early Implementation Requested

PET E 633 Advanced Enhanced Oil Recovery 3.0 (fi 6) (either term, 3-0-0). Evaluation and operation of secondary and tertiary recovery projects; principles of water flooding, chemical flooding and gas flooding techniques. Prerequisite: PET E 471 or consent of instructor.

**New Course** Early Implementation Requested

PET E 636 Computational Methods for Transport Phenomena in Porous Media 3.0 (fi 6) (either term, 3-0-0). Single and multi-phase flow problems in porous media for compressible and incompressible flow. Multi-dimensional flow will be considered. Analytical, numerical and stochastic flow models will be developed for heterogeneous porous media. Prerequisites: Consent of instructor. Credit cannot be obtained for both PET E 635 and PET E 636.

PET E 649 Advanced Reservoir Simulation

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Faculty of Engineering Calendar Changes

**New Course** Early Implementation Requested

3.0 (fi 6) (either term, 3-0-0). Simulation of recovery processes and various EOR methods such as water flooding, chemical flooding and gas flooding; PVT modeling; multiphase flash, compositional & thermal simulation. Modeling naturally fractured reservoirs. Prerequisite: PET E 477 or consent of instructor. Credit cannot be obtained for both PET E 649 and PET E 650.

Section 231 Course Listings 231.184 Mechanical Engineering, MEC E **New Course** Early Implementation Requested

MEC E 668 Design of Experiments in Mechanical Engineering 3 (fi 3) (either term, 3-0-0) Introduction to Experimental Design, with particular emphasis on mechanical engineering. Randomized factorial and fractional factorial experiments. Fitting regression models and optimization. Applications to analytical and computer models.

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Faculty of Engineering Calendar Changes – 2013/2014 §84.3 Required Courses and Suggested Course Sequence for Traditional Programs Engineering Chart 1 Required Courses and Suggested Course Sequence for Traditional Programs Chemical: Computer Process Control Option

Current Proposed

Term 5 CH E 312 (3-1s-0) CH E 343 (3-1s-0) CH E 351 (2-0-3) CH E 374 (3-1s-0) CH E 446 (3-1s-3/3) ITS Elective (3-0-0)

Term 5 CH E 312 (3-1s-0) CH E 343 (3-1s-0) CH E 351 (2-0-3) CH E 358 (3-0-4) CH E 374 (3-1s-0) CH E 446 (3-1s-3/3)

Current Proposed

Term 6 CH E 314 (3-1s-0) CH E 318 (3-0-2) CH E 345 (3-1s-0) CH E 572 (3-1s-3/3) ENG M 310 (3-0-0) or 401 (3-0-0)

Term 6 CH E 314 (3-1s-0) CH E 318 (3-0-2) CH E 345 (3-1s-0) CH E 472 (3-1s-3/3) ENG M 310 (3-0-0) or 401 (3-0-0)

Current Proposed

Term 7 CH E 358 (3-0-4) CH E 416 (3-0-2) CH E 464 (2-0-3) CME 481 (1-0-0) Program Elective (3-1s-0) Program Elective (3-1s-0)

Term 7 CH E 416 (3-0-2) CH E 464 (2-0-3) CME 481 (1-0-0) ITS Elective (3-0-0) Program Elective (3-1s-0) Program Elective (3-1s-0)

Materials: Biomedical Option

Current Proposed Term 3 BIOL 107 (3-1s-3) CH E 243 (3-1s-0) CHEM 261 (3-0-3) CME 200 (1 day) MAT E 202 (3-0-3/2) MATH 209 (3-0-1)

Term 3 CH E 243 (3-1s-0) CHEM 261 (3-0-3) CME 200 (1 day) MAT E 202 (3-0-3/2) MATH 209 (3-0-1) STAT 235 (3-0-1.5)

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Current Proposed Term 5 CH E 312 (3-1s-0) Complementary Studies Elective (3-0-0) MAT E 335 (3-1s-0) MAT E 301 (3-0-0) MAT E 361 (1-1-3/2) STAT 235 (3-0-1.5)

Term 5 BIOL 107 (3-1s-3) CH E 312 (3-1s-0) Complementary Studies Elective (3-0-0) MAT E 301 (3-0-0) MAT E 335 (3-1s-0) MAT E 361 (1-1-3/2)

§84.4 Required Courses and Suggested Course Sequence for Co-op Programs Engineering Chart 2 Required Courses and Suggested Course Sequence for Co-op Programs Chemical: Computer Process Control Option

Current Proposed

Winter Term 7 CH E 416 (3-0-2) CH E 464 (2-0-3) CH E 572 (3-1s-3/3) CME 481 (1-0-0) Program Elective (3-1s-0) Program Elective (3-1s-0)

Winter Term 7 CH E 416 (3-0-2) CH E 464 (2-0-3) CH E 472 (3-1s-3/3) CME 481 (1-0-0) Program Elective (3-1s-0) Program Elective (3-1s-0)

Materials: Biomedical Option

Current Proposed Fall Term 3 BIOL 107 (3-1s-3) CH E 243 (3-1s-0) CHEM 261 (3-0-3) CME 200 (1 day) ENGG 299 (1-1s-0) MAT E 202 (3-0-3/2) MATH 209 (3-0-1)

Fall Term 3 CH E 243 (3-1s-0) CHEM 261 (3-0-3) CME 200 (1 day) ENGG 299 (1-1s-0) MAT E 202 (3-0-3/2) MATH 209 (3-0-1) STAT 235 (3-0-1.5)

Current Proposed Fall Term 5 CH E 312 (3-1s-0) Complementary Studies Elective (3-0-0) MAT E 301 (3-0-0) MAT E 335 (3-1s-0) MAT E 361 (1-1-3/2) STAT 235 (3-0-1.5)

Fall Term 5 BIOL 107 (3-1s-3) CH E 312 (3-1s-0) Complementary Studies Elective (3-0-0) MAT E 301 (3-0-0) MAT E 335 (3-1s-0) MAT E 361 (1-1-3/2)

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Course Listing Changes (Calendar §231.76)

Current Proposed

The following courses were renumbered effective 2001-2002 Old New Old New CH E 316 CH E 416 CH E 434 CH E 345 CH E 365 CH E 464 CH E 436 CH E 583 CH E 390 CH E 484 CH E 502 CH E 482 CH E 418 CH E 318 [ ...]

[ ...] The following course was renumbered effective 2013-2014 Old New CH E 572 CH E 472

Undergraduate Courses

Current Proposed

CH E 374 Computational Methods in Engineering 3.5 (fi 6) (either term, 3-1s-0). Formulation and solution of chemical and materials engineering problems; solution of systems of linear and nonlinear algebraic equations; numerical interpolation, differentiation and integration; numerical solution of ordinary and partial differential equations. Prerequisites: ENCMP 100 (or equivalent). MATH 102, 201 and 209. Credit cannot be obtained in this course if credit has already been obtained CH E 474 or MATE 390

CH E 374 Computational Methods in Engineering 3.5 (fi 6) (either term, 3-1s-0). Formulation and solution of chemical and materials engineering problems; solution of systems of linear and nonlinear algebraic equations; numerical interpolation, differentiation and integration; numerical solution of ordinary and partial differential equations. Prerequisites: ENCMP 100 (or equivalent). MATH 102, 201 and 209.

CH E 448 Process Control for Mechanical Engineers 4 (fi 6) (second term, 3-1-3/3). Introduction to systems modeling and transient response analysis with an emphasis on mechanical engineering applications; design and analysis of feedback systems; stability analysis; feedforward control; process control applications. Prerequisites: MATH 201 or equivalent, MATH 209, and MEC E 330. Corequisite: MEC E 370. Restricted to students registered in the Mechanical Engineering program. Credit may not be obtained in this course if previous credit has been obtained for CH E 446.

CH E 448 Process Control for Mechanical Engineers 4 (fi 6) (second term, 3-1-3/3). Introduction to systems modeling and transient response analysis with an emphasis on mechanical engineering applications; design and analysis of feedback systems; stability analysis; feedforward control; process control applications. Prerequisites: MATH 201 or equivalent, MATH 209, and MEC E 330 or MEC 331. Corequisite: MEC E 370 or MEC E 371. Restricted to students registered in the Mechanical Engineering program. Credit may not be obtained in this course if previous credit has been obtained for CH E 446.

CH E 572 Modelling Process Dynamics 4 (fi 6) (second term, 3-1-3/3). Mechanistic and empirical modelling of process dynamics;

Deleted

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continuous- and discrete-time models; model fitting and regression analysis. Corequisites: CH E 314, 318 and 345.

New course

CH E 472 Modelling Process Dynamics 4 (fi 6) (second term, 3-1-3/3). Mechanistic and empirical modelling of process dynamics; continuous- and discrete-time models; model fitting and regression analysis. Corequisites: CH E 314, 318 and 345. Credit cannot be obtained in this course if previous credit has been obtained for CH E 572.

MAT E 361 Materials Engineering Laboratory I 2.3 (fi 4) (first term, 1-1s-3/2). Experimental data processing and report writing. Materials characterization. Materials testing. Particle size reduction and separation. Prerequisites: MAT E 211, 221, Corequisite: STAT 235.

MAT E 361 Materials Engineering Laboratory I 2.3 (fi 4) (first term, 1-1s-3/2). Experimental data processing and report writing. Materials characterization. Materials testing. Particle size reduction and separation. Prerequisites: MAT E 211, 221 and STAT 235.

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Calendar Listings Current Proposed

84.3 Chart 1 Civil: Biomedical Engineering Option Term 5 BIOCH 200 (3-0-0) BME 320 (3-0-0) CIV E 330 (3-1s-0) CIV E 372 (3-2s-0) CIV E 395 (3-0-2/2) CIV E 398 (3-1s-0)

84.3 Chart 1 Civil: Biomedical Engineering Option Term 5 BME 320 (3-0-0) CIV E 330 (3-1s-0) CIV E 372 (3-2s-0) CIV E 395 (3-0-2/2) CIV E 398 (3-1s-0) English Elective

84.3 Chart 1 Civil: Biomedical Engineering Option Term 7 One of ECE 209, MEC E 250 or CH E 243 ENG M 310 (3-0-0) or 401 (3-0-0) Complementary Studies Elective (3-0-0) English Elective ITS Elective (3-0-0) Program Elective (See Note)

84.3 Chart 1 Civil: Biomedical Engineering Option Term 7 BIOCH 200 (3-0-0) One of ECE 209, MEC E 250 or CH E 243 ENG M 310 (3-0-0) or 401 (3-0-0) Complementary Studies Elective (3-0-0) ITS Elective (3-0-0) Program Elective (See Note)

84.3 Chart 1 Mining Term 5 CIV E 330 (3-1s-0) ENG M 310 (3-0-0) or 401 (3-0-0) MIN E 323 (3-0-3) MIN E 325 (3-0-3) Program Elective (3-0-0) (See §84.5.8)

84.3 Chart 1 Mining Term 5 CIV E 330 (3-1s-0) or CH E 312 (3-1s-0) ENG M 310 (3-0-0) or 401 (3-0-0) MIN E 323 (3-0-3) MIN E 325 (3-0-3) Program Elective (3-0-0) (See §84.5.8)

84.3 Chart 1 Petroleum Term 7 CH E 314 (3-1s-0) ENGG 404 (3-3s/2-0) PET E 444 (3-0-0) PET E 475 (3-0-3/2) PET E 477 (3-0-0) PET E 484 (3-0-0) Term 8 ENGG 400 (1-0-0) PET E 471 (3-0-0) PET E 476 (3-0-0) PET E 478 (3-0-0) PET E 496 (1-6s-0) ITS Elective (3-0-0)

84.3 Chart 1 Petroleum Term 7 CH E 314 (3-1s-0) ENGG 404 (3-3s/2-0) PET E 444 (3-0-0) PET E 475 (3-0-3/2) PET E 476 (3-0-0) PET E 484 (3-0-0) Term 8 ENGG 400 (1-0-0) PET E 471 (3-0-0) PET E 477 (3-0-0) PET E 478 (3-0-0) PET E 496 (1-6s-0) ITS Elective (3-0-0)

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84.4 Chart 2 Civil: Environmental Engineering Option Winter Term 8 ENG M 310 (3-0-0) or 401 (3-0-0) ENGG 400 (1-0-0) ENV E 434 (3-0-0) ENV E 440 (3-0-3) LAW 399 (3-0-0) One of ECE 209, MEC E 202 or MAT E 252 ITS Elective (3-0-0)

84.4 Chart 2 Civil: Environmental Engineering Option Winter Term 8 ENG M 310 (3-0-0) or 401 (3-0-0) ENGG 400 (1-0-0) ENV E 434 (3-0-0) ENV E 440 (3-0-3) LAW 399 (3-0-0) One of ECE 209, MEC E 250 or MAT E 202 ITS Elective (3-0-0)

84.4 Chart 2 Mining Winter Term 5 CIV E 330 (3-1s-0) MIN E 324 (3-0-0) MIN E 330 (3-3/2s-0) English Elective (3-0-0) Program Elective (3-0-0) (See §84.5.8)

84.4 Chart 2 Mining Winter Term 5 CIV E 330 (3-1s-0) or CH E 312 (3-1s-0) MIN E 324 (3-0-0) MIN E 330 (3-3/2s-0) English Elective (3-0-0) Program Elective (3-0-0) (See §84.5.8)

84.4 Chart 2 Petroleum Fall Term 7 CH E 314 (3-1s-0) ENGG 404 (3-3s/2-0) PET E 444 (3-0-0) PET E 475 (3-0-3/2) PET E 477 (3-0-0) PET E 484 (3-0-0) Winter Term 8 ENGG 400 (1-0-0) PET E 471 (3-0-0) PET E 476 (3-0-0) PET E 478 (3-0-0) PET E 496 (1-6s-0) ITS Elective (3-0-0)

84.4 Chart 2 Petroleum Fall Term 7 CH E 314 (3-1s-0) ENGG 404 (3-3s/2-0) PET E 444 (3-0-0) PET E 475 (3-0-3/2) PET E 476 (3-0-0) PET E 484 (3-0-0) Winter Term 8 ENGG 400 (1-0-0) PET E 471 (3-0-0) PET E 477 (3-0-0) PET E 478 (3-0-0) PET E 496 (1-6s-0) ITS Elective (3-0-0)

Current Proposed

84.5.8 Mining The following courses are approved electives for the BSc program in Mining Engineering. Courses not listed must be preapproved by the Mining Undergraduate Student Advisor. Preapproval forms can be obtained from the Department. Without a preapproval form in your file there is no guarantee you will be given credit for the course if it is not in this list. CH E 374 CIV E 221, 303, 321, 331, 391, 431, 481

84.5.8 Mining The following courses are approved electives for the BSc program in Mining Engineering. Courses not listed must be preapproved by the Mining Undergraduate Student Advisor. Preapproval forms can be obtained from the Department. Without a preapproval form in your file there is no guarantee you will be given credit for the course if it is not in this list. CH E 374 CIV E 221, 303, 321, 331, 391, 431, 481

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EAS 205, 221, 224, 233 ECON 355, 365, 366 ENGG 406, 420 ENG M 501, 510, 514, 530 FIN 301, 413, 422 GEOPH 223, 224 MIN E 555 OM 352, 422, 426 SMO 301, 402 Business Electives The following Business courses are recommended program electives for the BSc program in Mining Engineering. FIN 301, 413, 422; OM 352, 422, 426 Note: Registration in more advanced business courses requires approval of the Faculty of Business.

EAS 205, 221, 224, 233 ECON 355, 365, 366 ENGG 406, 420 ENG M 501, 510, 514, 530 FIN 301, 413, 422 GEOPH 223, 224 MIN E 555 OM 352, 422, 426 PHYS 230 SMO 301, 402 Business Electives The following Business courses are recommended program electives for the BSc program in Mining Engineering. FIN 301, 413, 422; OM 352, 422, 426 Note: Registration in more advanced business courses requires approval of the Faculty of Business.

Section 231 Course Listings 231.82 Civil Engineering, CIV E

Current Proposed

CIV E 295 Civil Engineering Analysis II 4 (fi 8) (second term, 3-0-2). Application of numerical methods to civil engineering problems. Prerequisites: ENCMP 100 and MATH 102. Corequisite: MATH 201.

CIV E 295 Civil Engineering Analysis II 4 (fi 8) (second term, 3-0-2). Application of numerical methods to civil engineering problems. Prerequisites: ENCMP 100 and MATH 102.

CIV E 330 Introduction to Fluid Mechanics 3.5 (fi 6) (either term, 3-1s-0). Fluid properties; dimensional analysis; hyrdrostatics; fundamental equations of fluid motion; laminar, turbulent and inviscid flows; boundary layers and flow around immersed bodies; elementary building aerodynamics. Prerequisites: MATH 201 and 209.

CIV E 330 Introduction to Fluid Mechanics 3.5 (fi 6) (either term, 3-1s-0). Fluid properties; dimensional analysis; hyrdrostatics; fundamental equations of fluid motion; laminar, turbulent and inviscid flows; boundary layers and flow around immersed bodies; elementary building aerodynamics. Prerequisite: MATH 209. Corequisite: MATH 201.

CIV E 395 Civil Engineering Analysis III 3.5 (fi 6) (either term, 3-0-2/2). The formulation of partial differential equations for modeling civil engineering problems. Introduction to analytical and numerical solution techniques. Prerequisites: MATH 209 and CIV E 295.

CIV E 395 Civil Engineering Analysis III 3.5 (fi 6) (either term, 3-0-2/2). The formulation of partial differential equations for modeling civil engineering problems. Introduction to analytical and numerical solution techniques. Prerequisites: MATH 201, MATH 209 and CIV E 295.

CIV E 409 Construction Methods 4.5 (fi 6) (either term, 3-0-3). Principles of building, heavy and bridge construction; wood and formwork design, stability during construction, economics of equipment selection, movement of material on construction sites, safety, and constructability issues. Students work in teams on a design project. Prerequisites: CIV E 303 and 372.

CIV E 409 Construction Methods 4.5 (fi 6) (either term, 3-0-3). Principles of building, heavy and bridge construction; wood and formwork design, stability during construction, economics of equipment selection, movement of material on construction sites, safety, and constructability issues. Students work in teams on a design project. Prerequisites: CIV E 303 and 372. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students, or by consent of Department.

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CIV E 419 Transportation Engineering: Planning and Design 4.5 (fi 6) (second term, 3-0-3). Planning and design of various transportation systems, including development, planning process, data collection, finances, procedures for future developments, evaluation of transportation plans, and design of land, air and water transportation facilities (e.g. highways, railways, runways, pipelines, terminals, harbors, ports, and lighting for these areas). Students work in teams on a design project. Prerequisite: CIV E 411.

CIV E 419 Transportation Engineering: Highway Planning and Design 4.5 (fi 6) (second term, 3-0-3). Planning and design of highway transportation systems, including development, planning process, data collection, procedures for future developments, evaluation of transportation plans, and design of highway transportation facilities. Students work in teams on a design project. Prerequisite: CIV E 411. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

CIV E 429 Environmental Engineering Design 4.5 (fi 6) (second term, 3-0-3). Fundamentals of municipal planning and design of water supply, water and wastewater treatment, storm water management, or wastewater collection and management systems. Course includes design projects, field trips, and presentations. Students work in teams on a design project. Prerequisites: CIV E 321 and ENV E 421.

CIV E 429 Environmental Engineering Design 4.5 (fi 6) (second term, 3-0-3). Fundamentals of municipal planning and design of water supply, water and wastewater treatment, storm water management, or wastewater collection and management systems. Course includes design projects, field trips, and presentations. Students work in teams on a design project. Prerequisites: CIV E 321 and ENV E 421. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

CIV E 439 Water Resources Engineering Design 4.5 (fi 6) (second term, 3-0-3). Design of hydraulic structures and river engineering works, including: dams, spillways, energy dissipators, bridges, culverts, erosion protection and river training works. Students work in teams on a design project. Prerequisite: CIV E 431.

CIV E 439 Water Resources Engineering Design 4.5 (fi 6) (second term, 3-0-3). Design of hydraulic structures and river engineering works, including: dams, spillways, energy dissipators, bridges, culverts, erosion protection and river training works. Students work in teams on a design project. Prerequisite: CIV E 431. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

CIV E 459 Biomedical Engineering Design 4.5 (fi 6) (second term, 3-0-3). Application of civil and mechanical engineering principles to different topics in biomechanical engineering design. Topics may include: experimental tissues, bone engineering, computational biomechanics, numerical modeling for different mechanical and biological processes. Students work in teams on a design project. Prerequisite: consent of Department.

CIV E 459 Biomedical Engineering Design 4.5 (fi 6) (second term, 3-0-3). Application of civil and mechanical engineering principles to different topics in biomechanical engineering design. Topics may include: experimental tissues, bone engineering, computational biomechanics, numerical modeling for different mechanical and biological processes. Students work in teams on a design project. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

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CIV E 479 Structural Design III 4.5 (fi 6) (second term, 3-0-3). Design of prestressed concrete structures; masonry and reinforced masonry elements; timber structures; fatigue life of steel structures and cold formed steel elements. Students work in teams on a design project. Prerequisite: CIV E 474.

CIV E 479 Structural Design III 4.5 (fi 6) (second term, 3-0-3). Design of prestressed concrete structures; masonry and reinforced masonry elements; timber structures; fatigue life of steel structures and cold formed steel elements. Students work in teams on a design project. Prerequisite: CIV E 474. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

CIV E 489 Geotechnical Design 4.5 (fi 6) (second term, 3-0-3). Evaluation of site conditions. Design and analysis of shallow and deep foundations and retaining structures. Slope stability of embankments and cuts including foundation excavations. Students work in teams on a design project. Prerequisite: CIV E 481.

CIV E 489 Geotechnical Design 4.5 (fi 6) (second term, 3-0-3). Evaluation of site conditions. Design and analysis of shallow and deep foundations and retaining structures. Slope stability of embankments and cuts including foundation excavations. Students work in teams on a design project. Prerequisite: CIV E 481. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

CIV E 603 Computer Applications and Information Management in Construction 4.5 (fi 6) (either term, 3-0-3). Computer-aided information management in construction, including relational database development and management, application of artificial neural networks, and application of computers in the planning, organization and control of construction projects.

CIV E 603 Construction Informatics 4.5 (fi 6) (either term, 3-0-3). Computer-aided information management in construction, including relational database development and management, application of data mining techniques, computer programming, and application of computers in the planning, organization and control of construction projects.

CIV E 605 Decision Support Systems in Construction 3 (fi 6) (either term, 3-0-0). Development of decision support systems for construction project planning and control. Explores techniques of automated data acquisition, expert systems, utility theory, multi-attribute decision-making and fuzzy logic. Development of Practical applications in construction

CIV E 605 Decision Support Systems in Construction 3 (fi 6) (either term, 3-0-0). Modeling construction related problems utilizing mathematical and optimization algorithms. Decision analysis, multi-criteria decision making tools including analytic hierarchy process, multi-attribute utility theory, goal programming and multi-objective optimization forecasting, and queuing theory.

CIV E 613 Transportation Demand & Policy Analysis 3 (fi 6) (either term, 3-0-0). Microeconomic principles of consumer behaviour, parameter estimation techniques, disaggregate econometric choice theory, modelling transportation decisions, sampling and data preparation, interpretations/evaluation. Prerequisite: consent of instructor.

CIV E 613 Transportation Systems and Demand Analysis 3 (fi 6) (either term, 3-0-0). Microeconomic principles of production and consumer behaviour. Econometric modeling of demand: parameter estimation techniques, disaggregate choice theory, sampling and data preparation, evaluation. Networks, economic evaluations. Prerequisite: consent of instructor.

CIV E 627 Environmental Engineering Measurements II 3 (fi 6) (either term, 1-0-4). Laboratory experiments to present techniques for obtaining data and relationships needed for design of treatment facilities. Analytical approaches, data interpretation, presentation and design methods.

CIV E 627 Environmental Engineering Measurements II 3 (fi 6) (either term, 1-0-4). Laboratory experiments to present techniques for obtaining data and relationships needed for design of treatment facilities. Introduction to experimental design principles and their application. Statistical

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Applications of experimental design principles. analysis of experimental data for data interpretation, presentation and design.

Section 231 Course Listings 231.127 Environmental Engineering, ENV E

Current Proposed

ENV E 440 Facility Design 4.5 (fi 6) (either term, 3-0-3). Design of water supply, water treatment, wastewater treatment, or sewerage and storm water management facilities. Course includes major design projects, field trips, and presentations. Students work in teams on a design project. Prerequisites: ENV E 324 and 421.

ENV E 440 Facility Design 4.5 (fi 6) (either term, 3-0-3). Design of water supply, water treatment, wastewater treatment, or sewerage and storm water management facilities. Course includes major design projects, field trips, and presentations. Students work in teams on a design project. Prerequisites: ENV E 324 and 421. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

Section 231 Course Listings 231.193 Mining Engineering, MIN E

Current Proposed

MIN E 402 Mine Design Project I 4.5 (fi 6) (first term, 1-1s-6). First phase of a dynamic scenario-based full feasibility study from exploration through operations to final mine closure plan. Including preparation of a geological model and calculation of resources. Generation of focused technical reports, community consultation and economic reports. Review and identify conceptual mining methods for consideration in Mine Design Project II (see MIN E 403). Prepare regular team reports and presentations. Present final report during a half-day final industry seminar. Weekly seminars with instructor and industry. Corequisites: MIN E 413 and MIN E 414.

MIN E 402 Mine Design Project I 4.5 (fi 6) (first term, 1-1s-6). First phase of a dynamic scenario-based full feasibility study from exploration through operations to final mine closure plan. Including preparation of a geological model and calculation of resources. Generation of focused technical reports, community consultation and economic reports. Review and identify conceptual mining methods for consideration in Mine Design Project II (see MIN E 403). Prepare regular team reports and presentations. Present final report during a half-day final industry seminar. Weekly seminars with instructor and industry. Corequisites: MIN E 413 and MIN E 414. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

MIN E 403 Mine Design Project II 4.5 (fi 6) (second term, 1-1s-6). Second phase of a dynamic scenario-based full feasibility study from exploration through operations to final mine closure plan. This course follows MIN E 402 with detailed mine plans and equipment selection, manpower, ventilation, processing, environment and economic analyses. Prepare regular team reports and present final report during a half-day final industry seminar. Weekly seminars with instructor and industry. Prerequisite: MIN E 402.

MIN E 403 Mine Design Project II 4.5 (fi 6) (second term, 1-1s-6). Second phase of a dynamic scenario-based full feasibility study from exploration through operations to final mine closure plan. This course follows MIN E 402 with detailed mine plans and equipment selection, manpower, ventilation, processing, environment and economic analyses. Prepare regular team reports and present final report during a half-day final industry seminar. Weekly seminars with instructor and industry. Prerequisite: MIN E 402. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

MIN E 407 Principles of Mine Ventilation MIN E 407 Principles of Mine Ventilation

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3.8 (fi 6) (second term, 3-0-3/2). Principles and practices of underground total air conditioning. Control of quantity, quality, and temperature-humidity of the underground mines. Design and analyses of mine ventilation networks. Theory and applications of fans to mine ventilation systems. Ventilation planning and overall system design. Prerequisite: CIV E 330 and MIN E 414. Corequisite: MIN E 422.

3.8 (fi 6) (second term, 3-0-3/2). Principles and practices of underground total air conditioning. Control of quantity, quality, and temperature-humidity of the underground mines. Design and analyses of mine ventilation networks. Theory and applications of fans to mine ventilation systems. Ventilation planning and overall system design. Prerequisites: MIN E 414 and one of CIV E 330 or CH E 312. Corequisite: MIN E 422.

Section 231 Course Listings 231.212 Petroleum Engineering, PET E

Current

Proposed

PET E 364 Oil Well Drilling and Completion 4.3 (fi 6) (either term, 3-1s-3/2). Elements of rock mechanics, drilling fluids, factors affecting rate of penetration, formulation evaluation and well completions, and field testing procedures of drilling fluids. Prerequisites: CIV E 270 and CH E 312.

PET E 364 Drilling Engineering 4.3 (fi 6) (either term, 3-1s-3/2). Rotary drilling systems, elements of rock mechanics, properties and field testing procedures of drilling fluids, drilling fluids hydraulics, drill bit hydraulics and mechanics, well control, factors affecting rate of penetration, drill string mechanics, fundamentals of directional drilling. Prerequisites: CH E 312 or equivalent and CIV E 270.

PET E 471 – Enhanced Oil Recovery 3 (fi 6) (either term, 3-0-0). Classification of EOR methods, 1D-2D, and 3D immiscible displacement performance estimation. Frontal advance theory and Buckley-Leverett-Weldge approach, Chemical (Polymer, surfactant, micellar injection) injection methods. Heavy Oil recovery by thermal methods. Miscible-immiscible gas (hydrocarbon and CO2) injection. EOR in clastics and carbonates. Prerequisite: PET E 373

PET E 471 – Enhanced Oil Recovery 3 (fi 6) (either term, 3-0-0). Classification of EOR methods, areal, vertical and volumetric sweep efficiencies, predictive models for immiscible displacement. Frontal advance theory and Buckley-Leverett-Weldge approach. Chemical (alkaline, polymer, surfactant, micellar injection) flooding. Miscible-immiscible gas (hydrocarbon and CO2) injection. Prerequisite: PET E 373

PET E 496 Petroleum Engineering Design Project 4 (fi 6) (second term, 1-6s-0). Designed to deal with special case studies in the mining and petroleum industries; an analysis of reserves; the prediction of production and operating procedures related to the project; the application of economics in the analysis of profitability; economics and planning as tools for a management position. Prerequisite: PET E 484.

PET E 496 Petroleum Engineering Design Project 4 (fi 6) (second term, 1-6s-0). Designed to deal with special case studies in the mining and petroleum industries; an analysis of reserves; the prediction of production and operating procedures related to the project; the application of economics in the analysis of profitability; economics and planning as tools for a management position. Prerequisite: PET E 484. Note: Restricted to fourth-year traditional and fifth-year co-op engineering students.

PET E 630 Petroleum Reservoir Engineering 3.5 (fi 6) (either term, 3-1s-0). Characteristics of reservoir materials (rock, reservoir fluids); reservoir evaluation (volumetric methods, material balance method with water influx); fundamental production processes (primary recovery).

PET E 630 Advanced Reservoir Engineering 3.0 (fi 6) (either term, 3-0-0). Single and multiphase flow in porous media: concepts of relative permeability, capillary pressure, and wettability. Immiscible and miscible displacement processes in porous media. Overall reservoir performance (tank model): Mechanics of primary production and material balance equation of gas,

13

gas condensate, volatile and black oil reservoirs. Graphical and analytical decline curve analysis. Diffusivity equation and pressure transient in oil and gas reservoirs. Prerequisite: PET E 475 or consent of instructor.

PET E 632 Advanced Topics in Petroleum Production Mechanics 3.5 (fi 6) (either term, 3-1s-0). Concepts of reservoir engineering from an advanced point of view as applied to forecasting the performance of oil and/or gas reservoirs; combined driving mechanisms; applications to practical problems encountered during performance by primary means.

** delete course **

PET E 634 Secondary Recovery 3.5 (fi 6) (either term, 3-1s-0). Evaluation and operation of secondary recovery projects; fundamental consideration of petroleum engineering and reservoir behavior applied to secondary recovery of oil; recent technical papers

** delete course **

PET E 635 Numerical and Analytical Solution of Porous Media Flow Problems 3.5 (fi 6) (either term, 3-1s-0). The goal of this course is to develop techniques for the solution of a wide variety of single phase flow problems in porous media for compressible and incompressible flow. Two dimensional flow will be considered for the greater part. Selected mathematical techniques, analytical as well as numerical, will be developed for specific problems. In a number of cases, analytical and numerical solutions will be compared.

** delete course **

PET E 644 Fluid Mechanics of Natural Gas Production 3.5 (fi 6) (either term, 3-1s-0). Review of natural gas properties; reserve estimation techniques and advanced treatment of water influx in gas reservoirs; steady and transient single-phase gas flow in porous media; non-Darcy flow; deliverability tests; transient gas well testing: single and multiphase flow in circular conduits. Normally offered in alternate years.

PET E 644 Advanced Natural Gas Engineering 3.0 (fi 6) (either term, 3-0-0). Review of natural gas properties; reserve estimation techniques. Water influx in gas reservoirs; steady and transient single-phase gas flow in porous media; non-Darcy flow; deliverability tests; transient gas well testing. Recovery methods for unconventional gas reservoirs (coal beds, hydrates, tight sand and shale gas). Prerequisite: PET E 444 or consent of instructor.

PET E 650 Petroleum Reservoir Simulator Development 3.5 (fi 6) (either term, 3-1s-0). The principal objective of this course is the development of reservoir simulation theory to the level required for the construction of a three-phase, three-

** delete course **

14

dimensional reservoir simulator. In addition to providing practice in developing a simulator, the course will also cover recent advances in simulation and history matching PET E 664 Advanced Drilling Engineering 3.5 (fi 6) (either term, 3-1s-0). Recent advances and changes in drilling techniques will be discussed. The topics will include directional drilling and deviation control, design aspects of horizontal and multilateral well drilling, measurement while drilling, drill string mechanics, bottomhole assembly design, tubular stability, drag and torque problems.

Prerequisite: PET E 364 or consent of Instructor.

PET E 664 Advanced Drilling Engineering 3.0 (fi 6) (either term, 3-0-0). Recent advances in drilling techniques. Optimization of drilling operational parameters, directional drilling and deviation control, design aspects of horizontal and multilateral well drilling, measurement while drilling, drill string mechanics, bottomhole assembly design, tubular stability, drag and torque problems. Prerequisite: PET E 364 or consent of instructor.

PET E 668 Advanced Well Test Analysis 3.5 (fi 6) (either term, 3-1s-0). Analytical techniques employed to solve complex well test problems. Pressure derivative analysis. Production time effects on buildup analysis. Pressure transient analysis for fractured wells. Layered reservoir testing. Prerequisite: PET E 475 or consent of Instructor. Normally offered in alternate years.

PET E 668 Advanced Well Test Analysis 3.0 (fi 6) (either term, 3-0-0). Analytical techniques employed to solve complex well test problems in vertical and horizontal wells. Pressure derivative analysis. Pressure transient analysis for naturally and hydraulically fractured, and layered reservoirs. Prerequisite: PET E 475 or consent of instructor.

PET E 679 Thermal Recovery 3.5 (fi 6) (either term, 3-1s-0). Thermal recovery processes are mainly steam-based and can be divided into two main categories: displacement or drive processes and stimulation processes. Will cover steam displacement processes (steamflooding, steam-assisted gravity drainage), cyclic steam stimulation, in situ combustion, and briefly mention hot waterflooding. It will also cover properties of fluid and rock, wellbore heat losses, and a selection of thermal processes. Prerequisites: Permission of Instructor.

PET E 679 Thermal Recovery of Oil and Bitumen 3.0 (fi 6) (either term, 3-0-0). Concepts of mass and energy balances along with phase behaviour of water and hydrocarbons. Formulation and modeling of steam-based recovery methods (hot-water flooding, steamflooding, steam-assisted gravity drainage, and cyclic steam stimulation). Heat loss calculations. In-situ combustion performance estimation. Analytical and numerical methods for displacement, sweep, and energy efficiency of thermal recovery. Prerequisite: PET E 478 or consent of instructor.

15

Current Proposed 84.3 Required Courses and Suggested Course Sequence for Traditional Programs [ ]

84.3 Required Courses and Suggested Course Sequence for Traditional Programs [ ]

Computer Year 4 Term 8 ECE 410 (3-0-3/2) ECE 420 (3-0-3/2) ECE 492 (1-0-6) ENGG 400 (1-0-0) Group I Program Elective Group II Program Elective Group II Program Elective

Computer Year 4 Term 8 ECE 410 (3-0-3/2) ECE 420 (3-0-3/2) ECE 492 (1-0-6) ENGG 400 (1-0-0) Group II Program Elective Group II Program Elective Group II Program Elective

Electrical Year 2 Term 3 ECE 20201 (1 day) ECE 202 (3-1s-3/2) ECE 210 (3-0-3/2) MATH 201 (3-0-1) MATH 209 (3-0-1) Group I Program Elective English Elective (3-0-0)

Electrical Year 2 Term 3 ECE 201 (1 day) ECE 202 (3-1s-3/2) ECE 210 (3-0-3/2) MATH 201 (3-0-1) MATH 209 (3-0-1) Group I Program Elective English Elective (3-0-0)

Electrical: Biomedical Engineering Option Year 4 Term 8 ECE 405 (3-0-0) ECE 491 (1-0-3) Group II Program Elective Group II Program Elective Group II Program Elective ENG M 310 (3-0-0) or 401 (3-0-0) ITS Elective (3-0-0) ENGG 400 (1-0-0)

Electrical: Biomedical Engineering Option Year 4 Term 8 ECE 491 (1-0-3) Group II Program Elective Group II Program Elective Group II Program Elective ENG M 310 (3-0-0) or 401 (3-0-0) ITS Elective (3-0-0) ENGG 400 (1-0-0)

Engineering Physics Year 3 Term 6 ECE 212 (3-0-3/2) ECE 303 (3-1s-3/2) ECE 341 (3-1s-0) PHYS 311 (3-0-0) PHYS 372 (3-0-0) PHYS 397 (0-0-6)

Engineering Physics Year 3 Term 6 ECE 220 (3-0-3/2) ECE 303 (3-1s-3/2) ECE 341 (3-1s-0) PHYS 311 (3-0-0) PHYS 372 (3-0-0) PHYS 397 (0-0-6)

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84.4 Required Courses and Suggested Course Sequence for Co-op Programs [ ] Engineering Chart 2

84.4 Required Courses and Suggested Course Sequence for Co-op Programs [ ] Engineering Chart 2

Computer: Year 4 Fall Term 6 CMPUT 379 (3-0-3) ECE 304 (3-1s-3/2) ECE 342 (3-1s-0) Group I Program Elective Complementary Studies Elective (3-0-0) ITS Elective (3-0-0)

Computer: Year 4 Fall Term 6 CMPUT 379 (3-0-3) ECE 304 (3-1s-3/2) ECE 342 (3-1s-0) Group I Program Elective Complementary Studies Elective (3-0-0) Group II Program Elective

Year 4 Winter Term 7 ECE 315 (3-0-3/2) ECE 410 (3-0-3/2) ECE 420 (3-0-3/2) Group I Program Elective Group II Program Elective Group II Program Elective

Year 4 Winter Term 7 ECE 315 (3-0-3/2) ECE 410 (3-0-3/2) ECE 420 (3-0-3/2) Group I Program Elective Group II Program Elective ITS Elective (3-0-0)

Computer: Nanoscale System Design Option Year 4 Fall Term 6 ECE 304 (3-1s-3/2) ECE 342 (3-1s-0) Group I Program Elective Group I Program Elective Complementary Studies Elective (3-0-0) ITS Elective (3-0-0)

Computer: Nanoscale System Design Option Year 4 Fall Term 6 ECE 304 (3-1s-3/2) ECE 342 (3-1s-0) Group I Program Elective Group II Program Elective Complementary Studies Elective (3-0-0) ITS Elective (3-0-0)

Year 5 Winter Term 8 ECE 412 (3-0-0) ECE 457 (3-0-2) ECE 492 (1-0-6) ENGG 400 (1-0-0) Group II Program Elective Group II Program Elective Group II Program Elective

Year 5 Winter Term 8 ECE 412 (3-0-0) ECE 457 (3-0-2) ECE 492 (1-0-6) ENGG 400 (1-0-0) Group I Program Elective Group II Program Elective Group II Program Elective

Computer: Software Option Year 4 Fall Term 6 CMPUT 301 (3-0-3) CMPUT 379 (3-0-3) ECE 322 (3-0-3/2) STAT 235 (3-0-1.5) Group I Tech Elective Complementary Studies Elective (3-0-0)

Computer: Software Option Year 4 Fall Term 6 CMPUT 301 (3-0-3) CMPUT 379 (3-0-3) ECE 322 (3-0-3/2) STAT 235 (3-0-1.5) Group II Program Elective Complementary Studies Elective (3-0-0)

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Year 4 Winter Term 7 ECE 315 (3-0-3/2) ECE 421 (2-0-3) ECE 422 (3-0-0) Group II Program Elective Group II Program Elective Complementary Studies Elective (3-0-0)

Year 4 Winter Term 7 ECE 315 (3-0-3/2) ECE 421 (2-0-3) ECE 422 (3-0-0) Group I Program Elective Group II Program Elective Complementary Studies Elective (3-0-0)

84.5 Program and Technical Electives 84.5 Program and Technical Electives 84.5.3 Computer ... Group II Electives The three program electives in this group must be selected from the following list: ...

84.5.3 Computer ... Group II Electives The four program electives in this group must be selected from the following list: ...

84.5.3.2 Computer Engineering: Software Option ... Group II Electives The two program electives in this group must be selected from the following list: CMPUT 250, 304, 307, 325, 350, 366, 391, 410, 411, 415, 466 ECE 362, 370, 380, 405, one of 406 or 407, 440, 449, 455 ...

84.5.3.2 Computer Engineering: Software Option ... Group II Electives The three program electives in this group must be selected from the following list: CMPUT 250, 304, 307, 325, 350, 366, 391, 410, 411, 415, 466 ECE 362, 370, 380, 405, one of 406 or 407, 440, 449, 455 …

84.5.4 Electrical ... Of the six single-term program electives in this group, at least three must be from ... and at most two program electives may be chosen from the following list of courses: BME 513, 553, 564 ECE 405, one of 408 or 409, 412, 413, 452, 487. ...

84.5.4 Electrical ... Of the seven single-term program electives in this group, at least three must be from ... and at most two program electives may be chosen from the following list of courses: BME 513 ECE 405, one of 408 or 409, 412, 413, 452, 487. ...

84.5.4.1 Electrical: Biomedical Option ... Of the four program electives in this group, at least two must be from. ECE 304, 380, 401, 442, 450, 457, 460, 461, 471, 476 and the remainder from BIOCH 200 BME 513, 553, 564 CHEM 261,263 ...

84.5.4.1 Electrical: Biomedical Option ... Of the four program electives in this group, at least two must be from. ECE 304, 380, 401, 442, 450, 457, 460, 461, 471, 476 and the remainder from BIOCH 200 BME 513, 564 CHEM 261,263 ...

84.5.4.2 Electrical: Nanoengineering Option ... Of the five single-term program electives in this group, at least two must be ...

84.5.4.2 Electrical: Nanoengineering Option ... Of the four single-term program electives in this group, at least two must be ...

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84.5.5 Engineering Physics Of the five program electives at least two must be from: ECE 212, 380, 450, 452, 472, 476 and the remainder from ECE 304, 332, 401, 402, 403, 405, 410, 432, 440, 442, 450, 455, 456, 457, 458, 461, 464, 474, 475, 478, 485, 486, 489 BME 513, 564 … [Comments: Insert a line break before "and the remainder"]

84.5.5 Engineering Physics Of the five program electives at least two must be from: ECE 212, 380, 450, 452, 472, 476 and the remainder from ECE 304, 330, 332, 401, 402, 403, 405, 410, 432, 440, 442, 450, 455, 456, 457, 458, 461, 464, 474, 475, 478, 485, 486, 489 BME 513, 564 …

84.5.5.1 Engineering Physics: Nanoengineering Option Of the two program electives at least one must be from: ECE 212, 380, 450, 452, 472, 476 and the remainder from ECE 304, 332, 401, 402, 403, 405, 410, 432, 440, 442, 449, 455, 456, 458, 461, 464, 474, 475, 478, 485, 486, 489 … [Comments: Insert a line break before "and the remainder"]

84.5.5.1 Engineering Physics: Nanoengineering Option Of the three program electives at least one must be from: ECE 212, 220, 380, 450, 452, 472, 476 and the remainder from ECE 304, 330, 332, 401, 402, 403, 405, 410, 432, 440, 442, 449, 455, 456, 458, 461, 464, 474, 475, 478, 485, 486, 489 …

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231 Course Listings [ ]

231 Course Listings [ ]

231.117 Electrical and Computer Engineering, ECE Department of Electrical and Computer Engineering, Faculty of Engineering

[ ]

231.117 Electrical and Computer Engineering, ECE Department of Electrical and Computer Engineering, Faculty of Engineering

[ ] ECE 492 Computer Engineering Design Project I *4 (fi 6) (either term, 1-0-6). Design of microprocessor systems, input/output systems, programmable timers, address decoding and interrupt circuitry. This course has a major laboratory component and requires the design and fabrication of a complete microprocessor-based system. This course may not be taken for credit if credit has already been obtained in CMPE 450. Prerequisites: ECE 411 or CMPE 401, and ECE 410 or CMPE 480. Credit may be obtained in only one of CMPE 490 or ECE 492.

ECE 492 Computer Engineering Design Project *4 (fi 6) (either term, 1-0-6). Design of microprocessor systems, input/output systems, programmable timers, address decoding and interrupt circuitry. This course has a major laboratory component and requires the design and fabrication of a complete microprocessor-based system. This course may not be taken for credit if credit has already been obtained in CMPE 450. Prerequisites: ECE 315 or CMPE 401, and ECE 410 or CMPE 480. Credit may be obtained in only one of CMPE 490 or ECE 492.

ECE 330 Introduction to Power Engineering *3 (fi 6) (either term, 3-0-0). Overview of power concepts, three-phase circuits, transformer and its characteristics, per-unit calculation, transmission line and its basic operational characteristics, introduction to power systems. Prerequisite: ECE 203 or E E 250. Credit may be obtained in only one of ECE 330 or E E 330.

ECE 330 Introduction to Power Engineering *3 (fi 6) (either term, 3-0-0). Overview of power concepts, network equations, three-phase circuits, transformer and its characteristics, per-unit calculation, transmission lines and their basic operational characteristics, introduction to power system operation. Prerequisite: ECE 203 or E E 250. Credit may be obtained in only one of ECE 330 or E E 330.

ECE 430 Power System Analysis *3 (fi 6) (either term, 3-0-0). Review of power system components; transmission line design and line parameters; transmission line operation and characteristics; active and reactive power and impact on line operation; power flow computations; economic operation of power systems. Prerequisite: ECE 330 or E E 330. Credit may be obtained in only one of ECE 430 or E E 430.

ECE 430 Power System Analysis *3 (fi 6) (either term, 3-0-0). Transmission line design parameters; power flow computations; Generator control systems, load frequency control; economic operation of power systems; Symmetrical components theory; Symmetrical and unsymmetrical fault analysis. Prerequisite: ECE 330 or E E 330. Corequisite: ECE 332 or E E 332. Credit may be obtained in only one of ECE 430 or E E 430.

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Calendar Listings

Current

Proposed

84.5.7 Mechanical (1) One program elective must be chosen from the following: ENG M 541 or MEC E 468, 539, 563

84.5.7 Mechanical (1) One program elective must be chosen from the following: MEC E 467, 468, 539 or 563

Section 231.121 Engineering Management, ENG M

Current

Proposed

ENG M 514 Reliability for Design 3 (fi 6) (either term, 3-0-0). Concepts of reliability, failure rate, maintainability, and availability. Properties of various statistical distributions and their applications in reliability engineering. Failure data analysis techniques including probability plotting. Load and strength interference in mechanical component design. Design of components for high reliability. System reliability models and system reliability evaluation methods. Optimal system design considering reliability issues. Models for operation and maintenance of equipment. Credit may not be obtained for more than one of MEC E 514, ENG M 514, or E E 404. Prerequisite: STAT 235.

ENG M 514 Reliability Engineering 3 (fi 6) (either term, 3-0-0). Concepts of reliability, failure rate, maintainability, and availability. Properties of various statistical distributions and their applications in reliability engineering. Failure data analysis techniques including probability plotting. Load and strength interference in mechanical component design. System reliability models and system reliability evaluation methods. Optimal system design considering reliability issues. Prerequisite: STAT 235 or equivalent.

ENG M 516 Maintenance Management of Industrial Systems and Facilities 3 (fi 6) (either term, 3-0-0). Management of maintenance of industrial assets. Maintenance philosophies. Types of maintenance. Reliability centered maintenance. Scheduling and computerized maintenance management systems. Spare parts provisioning. Maintenance implementation. Prerequisite: ENG M 514 or consent of Instructor.

ENG M 516 Maintenance Management 3 (fi 6) (either term, 3-0-0). Maintenance management of industrial assets. Preventative maintenance decisions. Spare parts provisioning. Predictive maintenance decisions. Reliability centered maintenance. Total productive maintenance. Case studies. Prerequisite: STAT 235 or equivalent.

Section 231.184 Mechanical Engineering, MEC E

Current

Proposed

MEC E 360 Mechanical Design II 3.8 (fi 6) (either term, 3-0-1.5). Design procedures, theories of failure, material selection, design for fatigue, creep and relaxation, selection of gears and bearings, development and application of computer-aided design software. Prerequisite: MEC E 260 and 265, MAT E 202 and CIV E 270.

MEC E 360 Mechanical Design II 3.8 (fi 6) (either term, 3-0-1.5). Design procedures, theories of failure, material selection, design for fatigue, creep and relaxation, selection of gears and bearings and application of computer-aided design software. Prerequisite: MEC E 260 and 265, MAT E 202 and CIV E 270. Corequisite: MEC E 362

MEC E 403 Mechanical Engineering Laboratory II 2.5 (fi 6) (either term, 1-0-3). Selected laboratory experiments in applied mechanics and thermosciences. Note: Credit cannot be obtained in both MEC E 303 and 403. Prerequisites: MEC

MEC E 403 Mechanical Engineering Laboratory II 2.5 (fi 6) (either term, 1-0-3). Selected laboratory experiments in applied mechanics and thermosciences. Prerequisites: MEC E 300, 301, 340 and 360.

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E 300 and 301. MEC E 539 Applied Computational Fluid Dynamics 4.5 (fi 6) (either term, 3-0-3). Grid generation, time-marching methods, control volume formulations, shock capture, artificial dissipation, upwind flux-limiting, space-marching multigrid acceleration. Hands-on experience with commercial CFD codes to illustrate practical implementations and performance of theory. Prerequisites: MEC E 390, and 330 or equivalent.

MEC E 539 Applied Computational Fluid Dynamics 4.5 (fi 6) (either term, 3-0-3). Model selection and simplification, grid generation and grid independence, transient and advection terms treatment, turbulence modeling, verification and validation, best practices. Hands-on experience with commercial CFD codes to demonstrate the application of: theory, proper setup and analysis. Prerequisites: MEC E 390, and 330 or equivalent.

MEC E 585 Biomechanical Modelling of Human Tissues and Systems 3 (fi 6) (either term, 3-0-0). Biomechanics; mechanical characterization of biological tissues using elastic and viscoelastic models. Rheology of blood and flow properties. Static and dynamic analyses of selected physiological systems. Application of biomaterials in external and internal prostheses. Prerequisites: BME 210, BME 211, MEC E 300, 330 or 331, 362 and MEC E 380.

MEC E 585 Biomechanical Modelling of Human Tissues and Systems 3 (fi 6) (either term, 3-0-0). Biomechanics; mechanical characterization of biological tissues using elastic and viscoelastic models. Rheology of blood and flow properties. Static and dynamic analyses of selected physiological systems. Application of biomaterials in external and internal prostheses. Prerequisites: BME 320 and 321; MEC E 300, 362, 380; and MEC E 330 or 331.

MEC E 636 Environmental Fluid Mechanics 3 (fi 6) (either term, 3-0-0). Transport of passive and active scalars. Plumes and environmental convection with applications to air pollution. Gravity currents and intrusions. Surface gravity waves. Flow in porous media. Darcy’s law with applications to groundwater flow and oil recovery. Turbulent boundary layers in the natural environment. Prerequisite: MEC E 630 or MATH 556 or consent of Instructor.

MEC E 636 Environmental Fluid Mechanics 3 (fi 6) (either term, 3-0-0). Transport of passive and active scalars. Plumes and environmental convection with applications to air pollution. Gravity currents and intrusions. Surface gravity waves. Flow in porous media. Darcy’s law with applications to groundwater flow and oil recovery. Turbulent boundary layers in the natural environment.

MEC E 639 Computational Fluid Dynamics 3 (fi 6) (either term, 3-0-0). Computational fluid dynamics methods for incompressible and compressible fluids. Application to aeronautical and internal flows, finite difference, finite volume, and spectral methods. Prerequisite: CH E 674 or equivalent or consent of Instructor.

MEC E 639 Computational Fluid Dynamics 3 (fi 6) (either term, 3-0-0). Computational fluid dynamics methods for incompressible and compressible fluids. Model development, discretization methods, and topics on advanced coding, e.g., high performance computing, and parallelism, will be covered.

Current

Proposed

** new course **

MEC E 462 Piping Systems Design 4.0 (fi 6) (either term, 3-2-0). Design of piping systems. The course will focus on water, refrigerant, steam, and speciality piping systems. Equipment selection will be included. Incorporation of plumbing, building, mechanical, NFPA, and ASHRAE codes and standards. Prerequisite: MEC E 330 or 331, or equivalent.

** new course ** MEC E 467 Modeling and Simulation of Engineering Systems 4.5 (fi 6) (either term, 3-0-3). Modeling and analysis of systems and processes that include technological decision making. Formulation and solution methods for systems including associated resource requirements and other system inputs.

22

Numerical methods for simulation. Projects will involve simulation software to support analysis and design of engineering systems and processes. Prerequisites: MEC E 250 and 390. Note that credit cannot be obtained in both MEC E 467 and ENG M 541.

ENG M 541 Modeling and Simulation of Engineering Systems 4.5 (fi 6) (either term, 3-0-3). Modeling and analysis of systems and processes that include human decision making. Formulation and solution methods for systems involving associated economic functions. Numerical methods for simulation. Projects will utilize simulation software to support analysis and design of engineering systems and processes.

** delete course **

Section 231.119 Engineering, Computer, ENCMP

Current Proposed

ENCMP 100 Computer Programming for Engineers 3.8 (fi 8) (either term, 3-0-1.5). Fundamentals of computer programming with emphasis on solving engineering problems. Syntax, variables, statements, control structures, functions, data structures, files, pointers, memory use, searching, sorting, recursion.

ENCMP 100 Computer Programming for Engineers 3.8 (fi 8) (either term, 3-0-1.5). Fundamentals of computer programming with emphasis on solving engineering problems. Structure and syntax of computer programs, variables, data types, data structures, control structures, functions, input/output operations, debugging, software development process.

Current Proposed

84.6 Complementary Studies Electives To better understand the role of Engineering within a broader social context, all programs require an element of complementary studies consisting of the humanities, social sciences, arts, management, engineering economics and communications. Aspects of these topics are covered in mandatory courses, but each program contains complementary studies electives so that students may explore areas of particular interest. Notwithstanding this, the Canadian Engineering Accreditation Board requires that programs include exposure to the central thought processes of the

84.6 Complementary Studies Electives To better understand the role of Engineering within a broader social context, all programs require an element of complementary studies consisting of the humanities, social sciences, arts, management, engineering economics and communications. Aspects of these topics are covered in mandatory courses, but each program contains complementary studies electives so that students may explore areas of particular interest. Notwithstanding this, the Canadian Engineering Accreditation Board requires that programs include exposure to the central thought processes of the

23

humanities and social sciences. One Complementary Studies Elective must be taken from List 1, normally in the First Year of the program. Further Complementary Studies Electives must be at the 200-level or above and should be selected from List 2 (see §231 for course descriptions and prerequisites): List 1 (First year)

ANTHR 101, 110, 150 CLASS 102, 103, 104, 110 ECON 101, 102 ENGL 121, 122, 123, 124, 125* HIST 110, 111, 112, 114, 115, 116 LING 100, 101 PHIL 120, 125 POL S 101 PSYCO 104 SOC 100

*A single 3 ENGL course cannot satisfy both a Complementary Studies Elective and the English Elective requirements. List 2 (Second and higher years)

ACCTG 300, 311 ANTHR 230 B LAW 301, 422, 428**, 432 CHRTC 350 CLASS 254, 255, 294, 376 EAS 296 ECON 204, 281, 282, 355, 365 ENGG 420 ENG M 402, 406 HECOL 211 HIST 260, 261, 396, 397, 398 INT D 257, 303 LA ST 210 LING 204, 205, 323 MARK 301 OM 352 PHIL 205, 220, 250 265, 325, 366, 375, 380 POL S 220, 221, 223, 266 PSYCO 233, 241 R SOC 365 SMO 200, 301 SOC 212, 224, 225, 241, 242, 251, 301

humanities and social sciences. One Complementary Studies Elective must be taken from List 1, normally in the First Year of the program. Further Complementary Studies Electives must be at the 200-level or above and should be selected from List 2 (see §231 for course descriptions and prerequisites): List 1 (First year)

ANTHR 101, 110, 150 CLASS 102, 103, 104, 110 ECON 101, 102 ENGL 121, 122, 123, 124, 125* HIST 110, 111, 112, 114, 115, 116 LING 100, 101 PHIL 120, 125 POL S 101 PSYCO 104 SOC 100

*A single 3 ENGL course cannot satisfy both a Complementary Studies Elective and the English Elective requirements. List 2 (Second and higher years)

ACCTG 300, 311 ANTHR 230 B LAW 301, 422, 428**, 432 CHRTC 350 CLASS 254, 255, 294, 376 ECON 204, 281, 282, 355, 365 ENGG 420 ENG M 402, 406 HGP 210 HIST 260, 261, 396, 397, 398 INT D 257, 303 LA ST 210 LING 204, 205 MARK 301 OM 352 PHIL 205, 220, 250 265, 325, 366, 375, 380 POL S 220, 221, 223, 266 PSYCO 241 R SOC 355, 365 SMO 200, 301 SOC 212, 224, 225, 241, 242, 251, 301 W ST 201

24

W ST 201 **Not available to Civil (Environmental Engineering Option) students. A second course from the ITS List (§84.6.1) may be taken as part of List 2. However, a single course cannot be used to satisfy both the ITS and Complementary Studies requirements. This list is updated annually. Courses that teach a language or the application of a particular skill (such as courses in physical education, music and art) do not meet the intent of the Accreditation Board with respect to complementary studies and are therefore not eligible.

**Not available to Civil (Environmental Engineering Option) students. A second course from the ITS List (§84.6.1) may be taken as part of List 2. However, a single course cannot be used to satisfy both the ITS and Complementary Studies requirements. This list is updated annually. Courses that teach a language or the application of a particular skill (such as courses in physical education, music and art) do not meet the intent of the Accreditation Board with respect to complementary studies and are therefore not eligible.

Current Proposed

84.3 Required Courses and Suggested Course Sequence for Traditional Programs Engineering Chart 1

84.3 Required Courses and Suggested Course Sequence for Traditional Programs Engineering Chart 1

Computer [ … ] Note: See §84.5.3 for restrictions on the five program electives

Computer [ … ] Note: See §84.5.3 for restrictions on the six program electives

Electrical [ … ] Note: See §84.5.4 for restrictions on the eight program electives

Electrical [ … ] Note: See §84.5.4 for restrictions on the nine program electives

Current Proposed

84.4 Required Courses and Suggested Course Sequence for Co-op Programs Engineering Chart 2

84.4 Required Courses and Suggested Course Sequence for Co-op Programs Engineering Chart 2

Computer [ … ] Note: See §84.5.3 for restrictions on the five program electives

Computer [ … ] Note: See §84.5.3 for restrictions on the six program electives

Computer: Software Option [ … ]

Fall Term 6 CMPUT 301 (3-0-3)

Computer: Software Option [ … ]

Fall Term 6 CMPUT 301 (3-0-3)

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CMPUT 379 (3-0-3) ECE 322 (3-0-3/2) STAT 235 (3-0-1.5) Group I Tech Elective Complementary Studies Elective (3-0-0) [ ... ] Notes: (1) See §84.5.3.2 for restrictions on the four program electives

CMPUT 379 (3-0-3) ECE 322 (3-0-3/2) STAT 235 (3-0-1.5) Group I Program Elective Complementary Studies Elective (3-0-0) [ ... ] Notes: (1) See §84.5.3.2 for restrictions on the five program electives

Electrical [ … ] Note: See §84.5.4 for restrictions on the eight program electives

Electrical [ … ] Note: See §84.5.4 for restrictions on the nine program electives

Current Proposed

84.5.1 Chemical [ … ] (3) No more than one single-term program

elective may be selected from the following approved list:

BIOCH 200 BIOL 201, 208, 381 BOT 340 CELL 201 CHEM 211, 213, 303, 333, 479, 495 CMPE 402 EAS 201, 209 ENCS 455, 475 FOREN 355 MATH 225, 241, 300, 309, 311, 337,

371, 373, 374 MICRB 265, 311, 316 OM 352, 404, 405, 422, 426 SOILS 210, 430, 440, 450 Students may also take other courses

not listed here as program electives but in this case written permission from the Department is required.

84.5.1 Chemical [ … ] (3) No more than one single-term program

elective may be selected from the following approved list:

BIOCH 200 BIOL 201, 208, 381 BOT 340 CELL 201 CHEM 211, 213, 303, 333, 479, 495 CMPE 402 EAS 201, 209 ENCS 455, 475 FOREN 355 MATH 225, 241, 300, 309, 311, 337,

371, 373, 374 MGTSC 405

MICRB 265, 311, 316 OM 352, 404, 422, 426 SOILS 210, 430, 440, 450 Students may also take other courses

not listed here as program electives but in this case written permission from the Department is required.

84.5.6 Materials (1) Students in the general Materials

Engineering program are required to take five program electives from the following list of courses. At least three of the five must be CME and/or MAT E courses.

BIOCH 200

84.5.6 Materials (1) Students in the general Materials

Engineering program are required to take five program electives from the following list of courses. At least three of the five must be CME and/or MAT E courses.

BIOCH 200

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BIOL 107, 201 BME 410, 320, 321, 541 CELL 201 CME 421, 422, 472, 482, 484, 485 CH E 343, 446, 482, 484, 485, 582 CHEM 211, 213, 263, 303, 333, 371,

373 CIV E 221, 321, 372, 374, 421 CMPE 402 EAS 210, 224, 320 ECE 209, 457 ENGG 404, 406 ENG M 513, 514 ENV E 351 GEOPH 223 MAT E 390, 466, 468, 469, 470, 471,

473, 474, 490, 491, 494, 495 MATH 300 MEC E 250, 260, 360, 380 MIS 311 OM 352, 404, 405, 422, 426 PHYS 230, 271 STAT 265, 335, 368, 378 Other courses that are not listed may

be taken as program electives, but departmental approval must be obtained first

BIOL 107, 201 BME 410, 320, 321, 541 CELL 201 CME 421, 422, 472, 482, 484, 485 CH E 343, 446, 482, 484, 485, 582 CHEM 211, 213, 263, 303, 333, 371,

373 CIV E 221, 321, 372, 374, 421 CMPE 402 EAS 210, 224, 320 ECE 209, 457 ENGG 404, 406 ENG M 513, 514 ENV E 351 GEOPH 223 MAT E 390, 466, 468, 469, 470, 471,

473, 474, 490, 491, 494, 495 MATH 300 MEC E 250, 260, 360, 380

MGTSC 405 MIS 311 OM 352, 404, 422, 426 PHYS 230, 271 STAT 265, 335, 368, 378 Other courses that are not listed may

be taken as program electives, but departmental approval must be obtained first

84.5.7 Mechanical [ … ] (2) The remaining three program electives

must be chosen from the following: ACCTG 300 B LAW 301, 422, 444 BME 320, 321, 410, 513, 553, 564,

583 CH E 582 CMPE 402, 449 EE BE 512, 540 ENGG 404, 406, 420 ENG M 402, 406, 501, 508, 510, 514,

516, 530, 540, 541, 558 FIN 301 MARK 301 MATH 311 MAT E 345, 495 MEC E 364, 409, 415, 430, 439, 443,

464, 466, 468, 469, 480, 494/495, 537, 539, 541, 551, 553, 563, 564, 569, 585

OM 352 PET E 275, 364, 365, 366, 444

84.5.7 Mechanical [ … ] (2) The remaining three program electives

must be chosen from the following: ACCTG 300 B LAW 301, 422, 444 BME 320, 321, 410, 513, 553, 564,

583 CH E 582 CMPE 402, 449 ECE 405, 440 ENGG 404, 406, 420 ENG M 402, 406, 501, 508, 510, 514,

516, 530, 540, 541, 558 FIN 301 MARK 301 MATH 311 MAT E 345, 495 MEC E 364, 409, 415, 430, 439, 443,

464, 466, 468, 469, 480, 494/495, 537, 539, 541, 551, 553, 563, 564, 569, 585

OM 352 PET E 275, 364, 365, 366, 444

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SMO 301, 321 Other courses, including graduate-

level ENG M and MEC E courses, may be taken with Department approval. Program elective courses (including transfer courses) must be at 300-level or above unless cleared in advance by the Department or specified for particular streams.

Note that some courses have prerequisites that must be satisfied.

(3) Biomedical Engineering Elective Stream Students wishing to specialize in the

area of biomedical engineering should choose their three program electives from the following courses: BME 320, 321, 410, 513, 553, 583, EE BE 512, 540, MEC E 409, 469, 585. In particular BME 320, 321, and MEC E 585 are especially recommended.

Note: Some of these courses may not be offered every year. See department for details.

SMO 301, 321 Other courses, including graduate-

level ENG M and MEC E courses, may be taken with Department approval. Program elective courses (including transfer courses) must be at 300-level or above unless cleared in advance by the Department or specified for particular streams.

Note that some courses have prerequisites that must be satisfied.

(3) Biomedical Engineering Elective Stream Students wishing to specialize in the

area of biomedical engineering should choose their three program electives from the following courses: BME 320, 321, 410, 513, 553, 583, ECE 405, 440, MEC E 409, 469, 585. In particular BME 320, 321, and MEC E 585 are especially recommended.

Note: Some of these courses may not be offered every year. See department for details.

Current Proposed

231.75 Chemical and Materials Engineering, CME

231.75 Chemical and Materials Engineering, CME

CME 484 Polymer Processing 3.5 (fi 6) (either term, 3-0-0). [ … ]

CME 484 Polymer Processing 3 (fi 6) (either term, 3-0-0). [ … ]

CME 485 Polymerization Reactions 3.5 (fi 6) (either term, 3-0-0). [ … ]

CME 485 Polymerization Reactions 3 (fi 6) (either term, 3-0-0). [ … ]

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